Proton Calorimetry/Experimental Runs/2019/Apr12-15: Difference between revisions

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3 night shifts with range calorimeter + SDLR
2 night shifts with range calorimeter and single PMT module.
 
== ISDI Sensor Instructions ==
 
=== General Sensor Configuration ===
 
Base Configuration is 14 x 1 Bit
 
Resolution is 1030 x 1536 pixels
 
For selecting pixel rows in centre: Use horizontal offset (ignore DVAL to activate field) and horizontal resolution
 
 
=== Increase number of frame buffers ===
 
To increase the number of frame buffers to the allowed maximum, start XCAP as administrator.
 
Select Capture/Sequence Capture/Video to Frame Buffers/Driver Assistant
 
Tick box in left field, then set number of frame buffers here.
 
 
=== Serial Terminal instructions for ISDI sensor ===
 
Find serial terminal in PIXCI(R) tab of sensor control software.
 
In Controls/Options: Make sure "Send string with CR" is selected. Should be default.
 
In Controls/Setup: Select Serial Port: Enabled. Baud rate has to be 115200
 
Set low full well mode using W000300000
 
Set high full well mode using W000300004
 
Read full well mode using R0003
 
 
=== Continuous Field buffer setting ===
 
This setting makes sure that the buffer is filled with a new frame as they come in. If this option is not selected the sensor and software will not be synchronised and we will record a lot of pitch black images.
 
Select Capture/Live Options//Live Mode/Live Video: Continuous All buffer capture
 
 
== Equipment List ==


== Experiment Equipment ==
{| class="wikitable"
{| class="wikitable"
! style="text-align: center;" | Item
! style="text-align: center;" | Item
Line 51: Line 7:
|-
|-
| style="text-align: center;" | Network Hub
| style="text-align: center;" | Network Hub
| style="text-align: center;" | Set in control room to take output from experimental room ethernet switcher. Control laptops connected via ethernet or 5GHz WiFi.
| style="text-align: center;" | Set in control room to take output from experimental room ethernet connection. Control laptops connected via 5GHz WiFi.
|-
| style="text-align: center;" | Control Laptop x3
| style="text-align: center;" |
|-
|-
| style="text-align: center;" | DAQ Laptop
| style="text-align: center;" | Control Laptop x3
| style="text-align: center;" | In the experimental room
| style="text-align: center;" | 2x remote control for sensor and DSLR, 1 for notes
|-
|-
| style="text-align: center;" | Ethernet Cable x 2
| style="text-align: center;" | Ethernet Cable x 2
| style="text-align: center;" | To connect DAQ PC to the network and the network hub to the network system.
| style="text-align: center;" | To connect DAQ laptop to network in the experimental room, network hub to network in control room.
|}
 
==== Range Detector Experiment ====
UPDATE
<div class="image600px" style="text-align: center;">
[http://www.hep.ucl.ac.uk/pbt/wikiData/images/Heidelberg_Nov2018/RangeExperiment.png http://www.hep.ucl.ac.uk/pbt/wikiData/images/Heidelberg_Nov2018/RangeExperiment.png]
</div>
{| class="wikitable"
! style="text-align: center;" | Item
! style="text-align: center;" | Notes
|-
|-
| style="text-align: center;" | Portable Enclosure
| style="text-align: center;" | Portable Enclosure
| style="text-align: center;" | Modified Big Zarges Waterproof Wheeled Equipment Case.  
| style="text-align: center;" | Modified Big Zarges Waterproof Wheeled Equipment Case.  
Features mount for scintillator and PMT, opening for beam, and ports for SHV, BNC, SMA, Camera Link cables. <br/>  
Features mount for scintillator and DSLR, front and back openings for beam, patch panel with ports for SHV, BNC, SMA, USB, Camera Link cables. <br/>  
Hole for sensor powering. <br/>
Hole for sensor powering. <br/>
Mylar window with Al support mounted to internal face: approximately light-tight.
Mylar windows with Al support mounted to internal face: approximately light-tight.
|-
|-
| style="text-align: center;" | Scintillator stack
| style="text-align: center;" | Scintillator stack
Line 84: Line 27:
| style="text-align: center;" | sensor pixel dimension: 1030 x 1536. NO optical grease between scintillator and sensor. Connected to DAQ PC via Camera Link cable.  
| style="text-align: center;" | sensor pixel dimension: 1030 x 1536. NO optical grease between scintillator and sensor. Connected to DAQ PC via Camera Link cable.  
|-
|-
| style="text-align: center;" | DAQ desktop PC
| style="text-align: center;" | Nikon D7500
| style="text-align: center;" | Controls sensor aquisition.
| style="text-align: center;" | Connected to DAQ Laptop via USB cable.
|-
| style="text-align: center;" | DAQ laptop
| style="text-align: center;" | Controls sensor aquisition and DSLR aquisition.
|-
|-
| style="text-align: center;" | Gloves
| style="text-align: center;" | Gloves
| style="text-align: center;" | For handling scintillator
| style="text-align: center;" | For handling scintillator
|-
| style="text-align: center;" | Digital Caliper
| style="text-align: center;" | For measuring PMMA air gaps
|}
|}
==== Range Detector Experiment ====
<div class="image600px" style="text-align: center;">
[http://www.hep.ucl.ac.uk/pbt/wikiData/images/Heidelberg_Apr2019/HITApr2019_setup.png http://www.hep.ucl.ac.uk/pbt/wikiData/images/Heidelberg_Apr2019/HITApr2019_setup.png]
</div>


== Experiment List ==
=== ISDI Sensor Instructions ===
'''General Sensor Configuration'''
*Base Configuration is 14 x 1 Bit
*Resolution is 1030 x 1536 pixels
*For selecting pixel rows in centre: Use horizontal offset (ignore DVAL to activate field) and horizontal resolution


=== 12&ndash;13th April ===
'''Increase number of frame buffers'''
*To increase the number of frame buffers to the allowed maximum, start XCAP as administrator.
*Select Capture/Sequence Capture/Video to Frame Buffers/Driver Assistant
*Tick box in left field, then set number of frame buffers here.


0. Find convenient beam intensity that does not saturate sensor: lowest clinical beam energy, smallest beam focus
'''Serial Terminal instructions for ISDI sensor'''
*Find serial terminal in PIXCI(R) tab of sensor control software.
*In Controls/Options: Make sure "Send string with CR" is selected. Should be default.
*In Controls/Setup: Select Serial Port: Enabled. Baud rate has to be 115200
*Set low full well mode using W000300000
*Set high full well mode using W000300004
*Read full well mode using R0003


1. Calibration of detector (highest clinical energy). Shoot from front and back of stack (we have a new entrance window at the back of the stack). Also calibrate at different focus sizes. Also test camera: focus on front of beam stack and centre of beam stack and compare.
'''Continuous Field buffer setting'''
*This setting makes sure that the buffer is filled with a new frame as they come in. If this option is not selected the sensor and software will not be synchronised and we *will record a lot of pitch black images.
*Select Capture/Live Options//Live Mode/Live Video: Continuous All buffer capture


2. Test focus (beam size) dependence: shoot pencil beam with ~10 cm range at different focus sizes
== Experiment Plan ==
 
3.  Measure WET of known blocks of plastic to calibrate range telescope using a pencil beam with ~10cm range. Lennart will check if he can find some PMMA slabs whose WET has been accurately measured. Ideally have some slabs between ~1mm and ~5cm WET thickness. We know that there are some PMMA slabs between 1mm and 5cm thickness, measured by Giulia Arico (OMA fellow). These measurements will be used to benchmark Laurent's reconstruction code. Use tightest beam focus.
 
4. Repeat 0.-3. with all available ions (protons, helium, carbon and oxgen)
 
5. Measure SOBP of protons. 10cm deep, 3cm plateau
 
6. Measure high proton energies (up to 250MeV) using PMMA absorber in front of range telescope.
 
7. Measure a couple of oxygen pencil beams (range shift) and SOBP
 
8. Disassemble detector.


=== 12&ndash;13th April ===
# Find convenient beam intensity that does not saturate sensor: lowest clinical beam energy, smallest beam focus
# Calibration of detector (highest clinical energy). Shoot from front and back of stack (we have a new entrance window at the back of the stack). Also calibrate at different focus sizes. Also test camera: focus on front of beam stack and centre of beam stack and compare.
# Test focus (beam size) dependence: shoot pencil beam with ~10 cm range at different focus sizes
# Measure WET of known blocks of plastic to calibrate range telescope using a pencil beam with ~10cm range. Lennart will check if he can find some PMMA slabs whose WET has been accurately measured. Ideally have some slabs between ~1mm and ~5cm WET thickness. We know that there are some PMMA slabs between 1mm and 5cm thickness, measured by Giulia Arico (OMA fellow). These measurements will be used to benchmark Laurent's reconstruction code. Use tightest beam focus.
# Repeat 0.-3. with all available ions (protons, helium, carbon and oxgen)
# Measure SOBP of protons. 10cm deep, 3cm plateau
# Measure high proton energies (up to 250MeV) using PMMA absorber in front of range telescope.
# Measure a couple of oxygen pencil beams (range shift) and SOBP
# Disassemble detector.


=== 13&ndash;14th April ===
=== 13&ndash;14th April ===


0. Calibration for Carbon and calibration for helium at high full well mode. Also test reproducibility: Measure same pencil beam before and after re-assembling detector.
# Shoot-through calibration for Helium and Carbon: 430.1MeV/u Carbon 30cm range, He 220.5MeV/u 30cm range.
 
## High full-well mode C Intensity: 8*10^7; He Intensity: 8x10^8.
1. Measure Helium and Carbon SOBP through full range of both helium and Carbon. Similar as last time use real SOBP here. The SOBP measurement is useful to show what we are looking at. Measurements taken in step of 5cm PMMA slabs, as last time. Measure in high full well mode of detector. Beam intensities fixed to optimal output of detector. Check source switching time.
## Low full well mode C Intensity: 3*10^7; He Intensity 3*10^8.
 
## Rotate detector; repeat.
2. Repeat 1. with pencil beams but using the realistic beam intensities (2x10^8 for C12 and 2x10^7 for helium). Keep high full well mode for this (measurement useful as reference for intensity scaling of 1 later on).
<!-- -->
 
# Carbon and Helium SOBP and single energy pencil beam:
2.5 Calibration for low full well mode (all following should be in that mode for highest accuracy on carbon fragments)
## 2 Gy SOBP Carbon, Helium mix keep same intensity here and scale down later in data processing.  
 
## Carbon and Helium Intensities both 8*10^7 (low Helium intensity!). Both high and low full well modes. Only measure low full well as sensor starts to come out of saturation.
3. Repeat 2 but in low full well mode for best possible accuracy for helium beam and Carbon fragments. If signal gives too low resolution, find a good helium intensity for onward tests.  
## Carbon SOBP max range ~9cm (plateau 3cm longitudinal, 3x3cm2 lateral), He SOBP max range ~27 cm.  
 
## Repeat with 220MeV/u pencil beam (C 10cm, He 30 cm).  
4. Use single pencil beam at highest energy (220MeV/u for largest fragment build up) and build small air gaps in the center of the "target": what is the smallest WET change we can see despite the Carbon fragments? What is the smallest lateral gap size we can see for each gap depth? Measure different beam focus sizes. At what depth should the air gap be placed?
<!-- -->
 
# Add PMMA blocks, repeat previous measurement. 24 measurements; 5 changes in room. (5+5+5+2+2cm PMMA blocks, 19cm PMMA in total). Both high and low full well mode.  
->Test 4 different WET differences: 1mm, 2mm, 0.5cm, 1cm. Laterally, Lennart has to check what is the smallest PMMA slab they have two of. Use that to change the gap lateral size.
<!-- -->
 
# Variable air gap measurements:
5. Potentially: Repeat 4 for lower energy. (could be left out)
## 5cm PMMA, air gap, remaining PMMA absorber; total thickness of 20.8cm. Downstream sheets 5+5+2cm PMMA sheets plus half of unused pairs.
 
## Vary air gap width: 0mm, 2mm, 5mm, 10mm.
6. Repeat 4 with different beam intensities (1 higher, 1 lower intensity). Question to be answered: how much helium do we need for this detector? Not needed if we use unrealistic beam intensities following measurement 2. Could also be left out and done in data processing. (not important for us)
## Vary air gap depth: 1mm, 2mm, 5mm, 10mm.
 
## Upstream PMMA absorber 5cm; downstream PMMA absorber varies from 12.8cm to 13.7cm.
7. Build an online moving air gap that was visible well in 4. Laurent has to set up a quick analysis to judge whether the change is visible. For this, build the PMMA slabs on top of the moving platform available at HIT. Lennart will prepare the remote controlling of the moving platform. Irradiate SOBP Plan and move platform across. Take a video of the central pixel signal. We could repeat this even and take a screen-video as we see the online changes when we take the full sensor in integral mode. Can use DSLR camera for this as well. Might be problematic because we can only see the horizontal movement from the side, i.e. we cannot make use of the focus of the camera. We should still be able to see a range mixing of parts of the beam going through the air gap and parts of it going through the full PMMA phantom.
## 32 measurements, 16 absorber changes.
 
## For 5mm x 5mm gap, adjust focal spot size.
8. Repeat 7 step-wise (6 steps of 0.5cm depending on the time available) and take full view of CMOS for both helium and Carbon. This sequence of images can be combined to a film (gif) in offline analysis.
## Energy 220 MeV/u for both; intensity 8*10^7 for both; use focus setting 3 (8.5mm for Carbon; 8.1mm for Helium).
 
## Low full well mode for sensor.
9. Repeat 7 and 8 for the simple lung phantom. Interesting for publication and Joao has especially requested these measurements. Clarify what Joao is expecting to see. Movie of moving bragg curve with phantom an moving platform?
<!-- -->
 
# Half covered 2mm air gap:
Measurement 4 and onward could be performed with realistic and/or unrealistic high helium intensity. The latter would give more resolution, but less realism. Lennart would say, that we see in 3 if our signal quality is good enough with the realistic beam and then decide what to do. We can always use high intensities and scale the signal down in data processing. Laurent believes that a helium intensity of 2*10^7 p/s will be observable in our detector but might be a faint signal. We need to decide on the fly if the resolution is ok or not. If not, use higher helium intensity.
## 5cm upstream PMMA, 2mm air gap on left-hand side, 13.6cm downstream PMMA absorber. 18.8cm total PMMA thickness.
 
## Sheet pulled out, 8mm pulled out from centre, half-centred, 8mm pushed in from centred, all the way in.
 
## Energy 210 MeV/u for both; intensity 8*10^7 for both; use focus setting 3 (8.5mm for Carbon; 8.1mm for Helium).
## Scan layer with 10x10 spots over 3x3cm area.
## Low full well mode for sensor.
## Take movie with DSLR.
<!-- -->
# Moving platform measurements:
## Assemble PMMA stack on moving platform: upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm.  Total thickness still 18.8cm.
## Gap width 5mm; gap depth 5mm.
## Irradiate with single energy Helium plan: 10x1 spot array (3cm wide) and move platform at the same time. Spot dwell time ~200ms. Total plan irradiation time: 5s. Total platform movement: 4cm.
## Take images with sensor: use 100 pixel wide sensor strip and long acquisition.
## Energy 210 MeV/u for both; intensity 8*10^7 for both; use focus setting 3 (8.5mm for Carbon; 8.1mm for Helium).
<!-- -->
# Lung phantom measurements only(!) if enough time. Take lung phantom, place it on height adjustable table, place tumor in beam (180 MeV/u C and He), lift it by 0.5 cm


=== 14&ndash;15th April ===
=== 14&ndash;15th April ===


0. Shoot-through calibration with 324 MeV/u Helium and Carbon beam (we can also use standard calibration energies, i.e. the highest clinical energies for helium and carbon), helium will be at an intensity of 7*10^8 (that is what was pre-set by the HIT engineers) it can be lowered if needed, but Lennart is still finding out how controlled that is (i.e if we get feedback on the intensity from the accelerator of if we are "blind").
# '''Shoot-through calibration for Helium and Carbon: 430.1MeV/u Carbon 30cm range, focus 4.9mm; He 220.5MeV/u 30cm range, focus 3.4mm. 5cm upstream PMMA absorber.'''
## High full-well mode C Intensity: 8*10^7; He Intensity: 8x10^8.
## Low full well mode C Intensity: 3*10^7; He Intensity 3*10^8.
<!-- -->
# '''Lung phantom measurements with tumour.'''
## Align lung phantom with lasers. Lung tumour (about 1cm^3) sits positioned at isocentre.
## Monoenergetic pencil beam: Helium energy 180 MeV/u, Intensity 8*10^7, spot focus 3, Carbon 180MeV/u, intensity 8*10^7, spot focus 3.
## Use optimal full well mode for sensor: low full well mode.
## Step phantom vertically:
### 9 different heights.
### 5 mm vertical spacing.
### Start 20 mm below tumour, step phantom downwards until beam 20 mm above tumour.
## 8 changes in room plus initial setup; 18 total measurements (Carbon+Helium for each position).
<!-- -->
# '''High energy Helium Bragg peak scan with absorber.'''
## Switch to higher Helium energies (remote controlled by accelerator crew):
### Carbon: energy 324.26 MeV/u, intensity 8*10^7, spot size 8mm.
### Helium: energy 324.26 MeV/u, intensity 7*10^8, spot size 7mm.
## Detector measurements in both high and low full well mode.
## Build up 50 cm of PMMA in front of detector. Remove PMMA stack in 10cm steps: '''final measurement with 10cm, 5cm and 0cm absorber in place to give shoot-through calibration'''. 
##7 PMMA steps, Carbon+Helium, high+low full well mode: 28 total measurements.
## '''After first measurement with 50cm WET absorber, measure activation of PMMA and detector with full stack in place.'''
<!-- -->
# '''ADAM PETer phantom measurements.'''
## Use sensor high and low full well modes.
## Continue with higher Helium energies:
### Carbon: energy 324.26 MeV/u, intensity 8*10^7, spot size 8mm.
### Helium: energy 324.26 MeV/u, intensity 7*10^8, spot size 7mm.
## '''Setup:''' Place phantom in upright position. Fill with oil (measurements need to be fast, phantom heavily leaking oil). Place 2cm PMMA degrader in front of phantom; 15cm PMMA absorber between phantom and detector. Energy degraded down to ~300 MeV/u at phantom. Upstream face of Zarges case 28cm from isocentre.
## Align ADAM PETer in isocenter:
### Vertical shift by 5 mm.  
### Start at -1cm and step upwards.
### 5 positions, 10 measurements, 4 changes in room.
## Align ADAM PETer in isocenter, rotate:
### 4 measurements (0, 2, 4, 10 degree).
### 4 measurements, 3 changes in room plus setup.
<!-- -->
# '''ADAM phantom measurements.'''
## Use optimal sensor full well mode: probably high full well.
## Continue with higher Helium energies:
### Carbon: energy 324.26 MeV/u, intensity 8*10^7, spot size 8mm.
### Helium: energy 324.26 MeV/u, intensity 7*10^8, spot size 7mm.
## Setup: Place ADAM in isocentre. 15cm PMMA absorber between phantom and detector.
## 5 measurements: Uninflated rectum, 30 Ml Air, 45 Ml Air, 60 Ml Air, 75 Ml air. Rectum ballon inserted to 15cm.
## 5 measurements, 4 changes in room.
## Align isocenter with predefined spot. Repeat previous measurements. 5 measurements, 4 changes in room.
## Repeat measurement with spot in between isocentre and predefined rectum spot (horizontal alignment isocenter, vertical 1 cm below isocenter), and spot above isocenter (horizontal alignment isocenter, vertical alignment 1cm above).
## Repeat measurement with ADAM rotation:
### Align ADAM in isocenter.
### Rotate by 2 degree steps.
## Repeat measurement with ADAM horizontal shift:
### Align ADAM in isocenter.
### Horizontal shift by 1 cm.
<!-- -->
# '''ADAM lower energy phantom measurements with AP beam (30 degree gantry rotation).'''
## Use optimal sensor full well mode: probably high full well.
## Switch to lower Helium energies:
### Carbon: energy 263.4 MeV/u, intensity 8*10^7, spot size 8mm.
### Helium: energy 263.4 MeV/u, intensity 7*10^8, spot size 7mm.
## Setup: place ADAM in isocentre in upright position.
## Repeat rectal balloon and rotation measurements.
<!-- -->
# '''Water equivalent thickness measurements of 10 x 1cm sheets:'''
## Use optimal sensor full well mode: probably high full well.
## Shoot-through calibration with 220 MeV (30cm) proton range; 5cm upstream absorber.
## Switch to monoenergetic proton beam with 10cm range.
## Insert sheets one at a time and measure range shift.
## 11 measurements, 10 setup changes in room.


1. Take full depth-dose curve of Carbon and helium. This would be an interesting test to see the signal from Helium at these high energies. Lennart is not sure if he will find enough PMMA with accurately measured WET but is working on it (we need 50 cm PMMA roughly).
== Experiment Notes ==


2. Shoot through ADAM and measure both Helium and Carbon tail after Phantom. Aim at prostate close to rectum. Lennart chose the 324MeV/u according to a treatment plan. This carbon beam will stop in the prostate close to rectum.
Range calorimeter measurements with ISDI sensor + scintillator stack.


3. Blow up the rectal balloon (2 steps: 50ml air, 75ml air), irradiate both helium and carbon. Do we see changes?
=== 12&ndash;13th April ===
 
4. Reposition beam/rectal balloon if no change is visible. repeat 2 and 3 as needed.
 
5. Use no rectal balloon, aim at Prostate and fill Bladder in 2 steps: Do we see changes (no drastic changes expected)? Do only if plenty of time!
 
6. Aim at center of prostate and rotate phantom in 2 degree steps. Do we see changes? Some issue here is the hull of the phantom, which has a high gradient (curvature and dense material), so changes in range could be related mostly to that and the test might not be very realistic. Can also move phantom laterally as this measurement was recommended by Markus Stock from MedAustron. Could also be left out if under time pressure. Please be more specific about details of measurement: Alignment of phantom
 
7. Place the phantom vertically and aim at prostate. Measure both helium and carbon. Blow up rectum again (2 steps again) and show difference in range.
 
8. If still time/energy resources: more realistic lung phantom measurements. Lennart has yet to prepare a plan for these, as he only got the phantom recently. Alternatively, we could investigate the simple lung phantom from GSI, if we weren't able to do that in the second night shift.
 
9. There is a new pelvis phantom with fixed prostate available at HIT. It can be used for the measurement of horizontal displacements.


images from sensor: User/Public/Document/EPIX/XCAP/data/20190512


==Experiment Log==
== Beam Tests ==
=== 12&ndash;13th April ===
images from sensor: User/Public/Document/EPIX/XCAP/data/
images from dslr:  User/Public/Document/Nikon/
images from dslr:  User/Public/Document/Nikon/


*full sensor area
* full sensor area
*shooting on back window
* shooting on '''BACK WINDOW'''
 
*0. finding the best beam intensity (proton)
* Simon checking the intensity on pixels from dslr with nikon software
* Simon checking the intensity on pixels from dslr with nikon software
*camera settings
*camera settings
Line 186: Line 210:
**aperture f/3
**aperture f/3
**ISO 200
**ISO 200


{| class="wikitable"
{| class="wikitable"
Line 194: Line 217:
!Beam Energy (MeV/u)
!Beam Energy (MeV/u)
!Range (estimated)
!Range (estimated)
!N particles
!N particles (Hz)
!Spot size (mm)
!Spot size (mm)
!ion type
!ion type
!DSLR file name
!DSLR file name
!Degrader WET (mm)
!Comments
!Comments
!Thumbnail
|-
|-


|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || dslr file name DSC_ || comments || - |
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || dslr file name DSC_ || degrader WET || comments ||
|-
|00 || low || None || - || None || None || - || - || 0 || background ||
|-
|01 || high || None || - || None || None || - || - || 0 || background ||
|-
|not saved from Laurent || high || None || - || None || None || - || DSC_145 || 0 || intensity check ||
|-
|none || - || - || - || - ||  - || - || - || 0 || '''Calibration : shoot through. no degrader''' ||  
|-
|-
|00 || low || None || - || None || None || - || - || background || - |
|02 || high || 221.06 || - || 2*10^9 || 8.1 || p || DSC_147 || 0 || shoot through no degrader ||  
|-
|-
|01 || high || None || - || None || None || - || - || background || - |
|03 || high || 221.06 || - || 3.2*10^9 || 11.1 || p || DSC_149 || 0 || shoot through no degrader. from now on exposure time on dslr 0.2 sec ||  
|-
|-
|not saved from Laurent || high || None || - || None || None || - || DSC_145 || intensity check || - |
|04 || high || 221.06 || - || 3.2*10^9 || 20.0 || p || DSC_150 || 0 || shoot through no degrader. ||  
|-
|-
|02 || high || 221.06 || - || 2*10^9 ||  8.1 || p || DSC_147 || shoot through no degrader || -|
|05 || low || 221.06 || - || 1.2*10^9 ||  20.0 || p || DSC_151 || 0 || shoot through no degrader. exposure time back to 0.5 sec ||  
|-
|-
|03 || high || 221.06 || - || 3.2*10^9 ||  11.1 || p || DSC_149 || shoot through no degrader. from now on exposure time on dslr 0.2 sec  || -|
|06 || low || 221.06 || - || 1.2*10^9 ||  11.1 || p || DSC_152 || 0 || shoot through no degrader. ||  
|-
|-
|04 || high || 221.06 || - || 3.2*10^9 ||  20.0 || p || DSC_150 || shoot through no degrader.   || -|
|07 || low || 221.06 || - || 1.2*10^9 ||  8.1 || p || DSC_153 || 0 || shoot through no degrader. ||  
|-
|-
|05 || low || 221.06 || - || 1.2*10^9 ||  20.0 || p || DSC_151 || shoot through no degrader. exposure time back to 0.5 sec  || -|
|08 || high || 220.51 || - || 8*10^8 ||  4.9 || He || DSC_155 || 0 || shoot through no degrader. exposure 0.1 sec  ||  
|-
|-
|06 || low || 221.06 || - || 1.2*10^9 ||  11.1 || p || DSC_152 || shoot through no degrader.  || -|
|09 || high || 220.51 || - || 8*10^8 ||  8.1 || He || DSC_156 || 0 || shoot through no degrader.  ||  
|-
|-
|07 || low || 221.06 || - || 1.2*10^9 ||  8.1 || p || DSC_153 || shoot through no degrader.   || -|
|10 || high || 220.51 || - || 8*10^8 ||  10.1 || He || DSC_157 || 0 || shoot through no degrader. ||  
|-
|-
|08 || high || 220.51 || - || 8*10^8 ||  4.9 || He || DSC_155 || shoot through no degrader. exposure 0.1 sec  || -|
|11 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_159 || 0 || shoot through no degrader. ripple filter 3mm ||  
|-
|-
|09 || high || 220.51 || - || 8*10^8 || 8.1 || He || DSC_156 || shoot through no degrader.   || -|
|12 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_160 || 0 || shoot through no degrader. ripple filter 3mm  ||  
|-
|-
|10 || high || 220.51 || - || 8*10^8 ||  10.1 || He || DSC_157 || shoot through no degrader.   || -|
|13 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_161 || 0 || shoot through no degrader.ripple filter 3mm.  exposure 0.5 sec ||  
|-
|-
|11 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_159 || shoot through no degrader. ripple filter 3mm || -|
|14 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_162 || 59 || shoot through. PMMA 5 cm ||  
|-
|-
|12 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_160 || shoot through no degrader. ripple filter 3mm || -|
|15 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_163 || 59 || shoot through. PMMA 5cm ||  
|-
|-
|13 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_161 || shoot through no degrader.ripple filter 3mm. exposure 0.5 sec || -|
|16 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_164 || 59 || shoot through. PMMA 5cm ||  
|-
|-
|14 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_162 || shoot through. PMMA 5 cm || -|
|17 || high || 220.51|| - || 8*10^8 ||  4.9 || He || DSC_165 || 59 || shoot through. PMMA 5 cm. exposure 0.1 ||  
|-
|-
|15 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_163 || shoot through. PMMA 5cm  || -|
|18 || high || 220.51 || - || 8*10^8 || 8.1 || He || DSC_166 || 59 || shoot through. PMMA 5cm  ||  
|-
|-
|16 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_164 || shoot through. PMMA 5cm  || -|
|19 || high || 220.51 || - || 8*10^8 ||  10.1 || He || DSC_167 || 59 || shoot through. PMMA 5cm  ||  
 
|-
|-
|17 || high || 220.51|| - || 8*10^8 ||  4.9 || He || DSC_165 || shoot through. PMMA 5 cm. exposure 0.1 || -|
|20 || high || 221.06 || - || 3.2*10^9 ||  8.1 || p || DSC_168 || 59 || shoot through. PMMA 5 cm. exposure 0.2 ||  
|-
|-
|18 || high || 220.51 || - || 8*10^8 || 8.1 || He || DSC_166 || shoot through. PMMA 5cm  || -|
|21 || high || 221.06 || - || 3.2*10^9 || 11.1 || p || DSC_169 || 59 || shoot through. PMMA 5cm  ||  
|-
|-
|19 || high || 220.51 || - || 8*10^8 ||  10.1 || He || DSC_167 || shoot through. PMMA 5cm  || -|
|22 || high || 221.06 || - || 3.2*10^9 ||  20 || p || DSC_170 || 59 || shoot through. PMMA 5cm  ||  
 
|-
|-
|20 || high || 221.06 || - || 3.2*10^9 ||  8.1 || p || DSC_168 || shoot through. PMMA 5 cm. exposure 0.2|| -|
|23 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_172 || 0 || shoot through. no absorber. exposure 0.1 ||  
|-
|-
|21 || high || 221.06 || - || 8*10^8 || 11.1 || p || DSC_169 || shoot through. PMMA 5cm  || -|
|24 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_173 || 0 || shoot through. no absorber ||  
|-
|-
|22 || high || 221.06 || - || 8*10^8 ||  20 || p || DSC_170 || shoot through. PMMA 5cm || -|
|25 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_175 || 0 || shoot through. no absorber. exposure 0.2 sec ||  
|-
|-
|}
|}
* the case has been rotating around. We now shoot on the front window
 
* the case has been ROTATED around. We now shoot on the '''FRONT window'''


{| class="wikitable"
{| class="wikitable"
Line 266: Line 298:
!ion type
!ion type
!DSLR file name
!DSLR file name
!Degrader WET (mm)
!Comments
!Comments
!Thumbnail
|-
|-


|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || dslr file name DSC_ || comments || - |
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || dslr file name DSC_ || comments ||
|-
|26 || high || 60.9 || - || 6*10^8 ||  26.3 || p || DSC_176 || 0 || front window Intensity check. exposure 0.5 sec  ||
|-
|27 || high || 60.8 || - || 2*10^8 ||  15.4 || He || DSC_178 || 0 || front window Intensity check. exposure 0.5 sec  ||
|-
|28 || high || 110.6 || - || 2*10^7 ||  8.4 || C || DSC_180 || 0 || front window Intensity check. exposure 0.5 sec  ||
|-
|29 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_181 || 0 || front window shoot through. no absorber. exposure 0.2 sec ||
|-
|none || - || - || - || - ||  - || - || - || 0 || '''Calibration : shoot through. no degrader''' ||
|-
|30 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_182 || 0 || shoot through. no absorber ||
|-
|31 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_183 || 0 || shoot through. no absorber. ||
|-
|32 || high || 221.06 || - || 3.2*10^9 ||  20.0 || p || DSC_184 || 0 || shoot through no degrader.  ||
|-
|33 || high || 221.06 || - || 3.2*10^9 ||  11.1 || p || DSC_185 || 0 || shoot through no degrader.  ||
|-
|34 || high || 221.06 || - || 3.2*10^9 ||  8.1 || p || DSC_186 || 0 || shoot through no degrader.  ||
|-
|35 || high || 220.51 || - || 8*10^8 ||  4.9 || He || DSC_187 || 0 || shoot through no degrader. exposure 0.1 sec  ||
|-
|36 || high || 220.51 || - || 8*10^8 ||  8.1 || He || DSC_188 || 0 || shoot through no degrader.  ||
|-
|37 || high || 220.51 || - || 8*10^8 ||  10.1 || He || DSC_190 || 0 || shoot through no degrader.  ||
|-
|38 || high || 220.51 || - || 8*10^8 ||  4.9 || He || DSC_191 || 59 || shoot through 5cm PMMA. exposure 0.1 sec  ||
|-
|39 || high || 220.51 || - || 8*10^8 ||  8.1 || He || DSC_192 || 59 || shoot through 5cm PMMA.  ||
|-
|40 || high || 220.51 || - || 8*10^8 ||  10.1 || He || DSC_193 || 59 || shoot through 5cm PMMA.  ||
|-
|41 || high || 430.1 || - || 8*10^7 ||  3.4 || C || DSC_194 || 59 || front window shoot through. 5cm PMMA. exposure 0.2 sec ||
|-
|42 || high || 430.1 || - || 8*10^7 || 7.8 || C || DSC_195 || 59 || shoot through. 5cm PMMA ||
|-
|43 || high || 430.1 || - || 8*10^7 ||  20 || C || DSC_196 || 59 || shoot through. 5cm PMMA. ||
|-
|44 || high || 221.06 || - || 3.2*10^9 ||  8.1 || p || DSC_197 || 59 || shoot through 5cm PMMA. exposure 0.2 sec  ||
|-
|45 || high || 221.06 || - || 3.2*10^9 ||  11.1 || p || DSC_198 || 59 || shoot through 5cm PMMA.  ||
|-
|46 || high || 221.06 || - || 3.2*10^9 ||  20.0 || p || DSC_199 || 59 || shoot through 5cm PMMA.  ||
|-
|none || - || - || - || - ||  - || - || - || 0 || '''Test Focus''' ||
|-
|47 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || DSC_201 || 0 || about 10 cm range. exposure 0.1 sec  ||
|-
|48 || high || 120.1 || - || 1.2*10^9 ||  14.4 || p || DSC_202 || 0 || about 10 cm range  ||
|-
|49 || high || 120.1 || - || 1.2*10^9 ||  15.4 || p || DSC_203 || 0 || about 10 cm range  ||
|-
|50 || high || 120.1 || - || 1.2*10^9 ||  16.5 || p || DSC_204 || 0 || about 10 cm range  ||
|-
|51 || high || 120.1 || - || 1.2*10^9 ||  19.2 || p || DSC_205 || 0 || about 10 cm range  ||
|-
|52 || high || 120.1 || - || 1.2*10^9 ||  20.9 || p || DSC_206 || 0 || about 10 cm range  ||
|-
|53 || high || 120.42 || - || 3*10^8 ||  8.1 || He || DSC_207 || 0 || about 10 cm range. exposure 0.1 sec  ||
|-
|54 || high || 120.4 || - || 3*10^8 ||  8.9 || He || DSC_208 || 0 || about 10 cm range  ||
|-
|55 || high || 120.4 || - || 3*10^8 ||  10.4 || He || DSC_209 || 0 || about 10 cm range  ||
|-
|56 || high || 120.4 || - || 3*10^8 ||  12 || He || DSC_210 || 0 || about 10 cm range  ||
|-
|57 || high || 219.8 || - || 8*10^7 ||  4.7 || C || DSC_211 || 0 || about 10 cm range. exposure 0.1 sec  ||
|-
|58 || high || 219.8 || - || 8*10^7 ||  6.4 || C || DSC_212 || 0 || about 10 cm range  ||  
|-
|-
 
|59 || high || 219.8 || - || 8*10^7 ||  8.5 || C || DSC_213 || 0 || about 10 cm range  ||
|14 || high || 430.1 || - || 8*10^7 ||  3.5 || C || DSC_159 || shoot through no degrader. || -|
|-
|60 || high || 219.8 || - || 8*10^7 ||  10.3 || C || DSC_214 || 0 || about 10 cm range  ||
|-
|61 || high || 219.8|| - || 8*10^7 ||  15. || C || DSC_215 || 0 || about 10 cm range  ||
|-
|62 || high || 219.8 || - || 8*10^7 ||  20. || C || DSC_216 || 0 || about 10 cm range  ||
|-
|none || - || - || - || - ||  - || - || - || - || '''WET measurementof known absorbers''' ||
|-
|63 || high || 219.8 || - || 1.2*10^9 ||  4.7 || C || DSC_217 || 2.46 || 2mm PMMA absorber. exposure 0.1 sec ||
|-
|64 || high || 120.42 || - || 3*10^8 ||  8.1 || He || DSC_218 || 2.46 || 2mm PMMA absorber. exposure 0.1 sec  ||
|-
|65 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || DSC_219 || 2.46 || 2mm PMMA absorber. exposure 0.1 sec ||
|-
|66 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || DSC_220 || 1.12 || 1mm PMMA absorber. exposure 0.1 sec ||
|-
|67 || high || 219.8 || - || 8*10^7 ||  4.7 || C || DSC_222 || 1.12 || 1mm PMMA absorber. exposure 0.1 sec ||
|-
|68 || high || 120.42 || - || 3*10^8 ||  8.1 || He || DSC_223 || 1.12 || 1mm PMMA absorber. exposure 0.1 sec  ||
|-
|69 || high || 120.42 || - || 3*10^8 ||  8.1 || He || DSC_224 || 5.62 || 5mm PMMA absorber. exposure 0.1 sec  ||
|-
|70 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || DSC_225 || 5.62 || 5mm PMMA absorber. exposure 0.1 sec ||
|-
|71 || high || 219.8 || - || 8*10^7 ||  4.7 || C || DSC_226 || 5.62 || 5mm PMMA absorber. exposure 0.1 sec ||
|-
|72 || high || 219.8 || - || 8*10^7 ||  4.7 || C || DSC_227 || 11.77 || 10mm PMMA absorber. exposure 0.1 sec ||
|-
|73 || high || 120.42 || - || 3*10^8 ||  8.1 || He || DSC_228 || 11.77 || 10mm PMMA absorber. exposure 0.1 sec  ||
|-
|74 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || DSC_229 || 11.77 || 10mm PMMA absorber. exposure 0.1 sec ||
|-
|75 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || DSC_230 || 22.71 || 20mm PMMA absorber. exposure 0.1 sec ||
|-
|76 || high || 219.8 || - || 8*10^7 ||  4.7 || C || - || 22.71 || 20mm PMMA absorber. DSLR discharged ||
|-
|77 || high || 120.42 || - || 3*10^8 ||  8.1 || He || - || 22.71 || 20mm PMMA absorber. ||
|-
|78 || high || 120.42 || - || 3*10^8 ||  8.1 || He || - || 59 || 50mm PMMA absorber. ||
|-
|79 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || - || 59 || 50mm PMMA absorber.  ||
|-
|80 || high || 219.8 || - || 8*10^7 ||  4.7 || C || - || 59 || 50mm PMMA absorber.  ||
|-
|none || - || - || - || - ||  - || - || - || - || '''SOBP for protons: 10 cm deep 3cm plateau''' ||
|-
|81 || high || max 116.85 min 98.27 || - || 1.2*10^9 ||  13.7 - 16 || p || - || 0 || SOBP no absorber. n. of steps in the file sent by email at 3.10 am on 13 Apr 2019. sensor: 10 pix in the center ||
|-
|82 || high || -|| - || - ||  - || - || - || - || background. sensor 10 px in the center ||
|-
|none || - || - || - || - ||  - || - || - || - || '''High proton energies''' ||
|-
|83 || high || 221.1 || - || 1.2*10^9 ||  8.1 || p || - || 232.87 || 20cm (5 + 2 + 1 + 2 + 5 + 5 cm) PMMA absorber. Corresponds to (5.9 + 2.274 + 1.177 + 2.271 + 5.901 + 5.764) cm WET = 23.287 cm WET ||
|-
|84 || high || 215.3 || - || 1.2*10^9 ||  8.1 || p || - || 232.87 || 20cm PMMA absorber. 23.287 cm WET ||
|-
|85 || high || 210.1 || - || 1.2*10^9 ||  8.1 || p || - || 232.87 || 20cm PMMA absorber. 23.287 cm WET ||
|-
|86 || high || 205.5 || - || 1.2*10^9 ||  8.2 || p || - || 232.87 || 20cm PMMA absorber. 23.287 cm WET ||
|-
|87 || high || 200.1 || - || 1.2*10^9 ||  8.4 || p || - || 232.87 || 20cm PMMA absorber. 23.287 cm WET ||
|-
|88 || high || 200.1 || - || 1.2*10^9 ||  8.4 || p || - || 139.36 || 12cm (5 + 5 + 2 cm) PMMA absorber. 13.936 cm WET ||
|-
|89 || high || 195.3 || - || 1.2*10^9 ||  8.6 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|90 || high || 190.5 || - || 1.2*10^9 ||  8.0 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|91 || high || 185.5 || - || 1.2*10^9 ||  9.1 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|92 || high || 180.5 || - || 1.2*10^9 ||  9.4 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|93 || high || 175.3 || - || 1.2*10^9 ||  9.7 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|94 || high || 170.6 || - || 1.2*10^9 ||  9.9 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|95 || high || 165.4 || - || 1.2*10^9 ||  10.3 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|96 || high || 160.1 || - || 1.2*10^9 ||  10.6 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|97 || high || 155.3 || - || 1.2*10^9 ||  10.9 || p || - || 139.36 || 12cm PMMA absorber. 13.936 cm WET ||
|-
|98 || high || 155.3 || - || 1.2*10^9 ||  10.9 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|99 || high || 150.4 || - || 1.2*10^9 ||  11.2 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|100 || high || 145.5 || - || 1.2*10^9 ||  11.5 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|101 || high || 140.4 || - || 1.2*10^9 ||  11.8 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|102 || high || 135.2 || - || 1.2*10^9 ||  12.2 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|103 || high || 130.5 || - || 1.2*10^9 ||  12.5 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|104 || high || 125.1 || - || 1.2*10^9 ||  12.9 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|105 || high || 120.1 || - || 1.2*10^9 ||  13.4 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|106 || high || 115.6 || - || 1.2*10^9 ||  13.8 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|107 || high || 110.2 || - || 1.2*10^9 ||  14.4 || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET ||
|-
|108 || high || 105.4 || - || 1.2*10^9 ||  15. || p || - || 57.64 || 5cm PMMA absorber. 5.764 cm WET. ||
|-
|109 || high || 105.4 || - || 1.2*10^9 ||  15. || p || - || 0 || no absorber. ||
|-
|110 || high || 95.3 || - || 1.2*10^9 ||  16.5 || p || - || 0 || no absorber. || -|
|-
|111 || high || 90.7 || - || 1.2*10^9 ||  17.4 || p || - || 0 || no absorber. ||
|-
|112 || high || 90.7 || - || 1.2*10^9 ||  17.4 || p || - || 0 || no absorber. copy of 111 ||
|-
|113 || high || 80.04 || - || 1.2*10^9 ||  19.8 || p || - || 0 || no absorber.  ||  
|-
|-
|15 || high || 430.1 || - || 8*10^8 || 7.8 || C || DSC_160 || shoot through no degrader.   || -|
|114 || high || 48.1 || - || 1.2*10^9 || 32.4 || p || - || 0 || no absorber. ||  
|-
|-
|16 || high || 430.1 || - || 8*10^8 ||  20 || C || DSC_161 || shoot through no degrader.   || -|
|115 || high || 48.1 || - || 1.2*10^9 ||  32.4 || p || - || 0 || no absorber. copy of 114 ||  
|-
|-
|}
|}


----------------------------
* '''OXYGEN'''
----------------------------
 
----------------------------
-----------------------------
copy paste for convenience from Nov2018
{| class="wikitable"
{| class="wikitable"


Line 295: Line 509:
!ion type
!ion type
!DSLR file name
!DSLR file name
!Degrader WET (mm)
!Comments
!Comments
!Thumbnail
|-
|-


|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || dslr file name || comments |
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || dslr file name DSC_ || degrader WET || comments || -
|-
|116 || high || 231.4 || - || 4.*10^7 ||  4.3 || O || - || 59 || Intensity test 5cm absorber (absorber n 3) ||
|-
|117 || low || 231.4 || - || 4.*10^7 ||  4.3 || O || - || 59 || Intensity test 5cm absorber (absorber n 3) ||
|-
|118 || low || 231.4 || - || 1.5*10^7 ||  4.3 || O || - || 59 || Intensity test 5cm absorber (absorber n 3) ||
|-
|119 || low || 231.4 || - || 2.5*10^7 ||  4.3 || O || - || 59 || Intensity test 5cm absorber(absorber n 3) ||
|-
|120 || low || 430.32 || - || 2.5*10^7 ||  2.7 || O || - || 59 || shoot-through with 5cm absorber (absorber n 3) ||
|-
|121 || low || 430.32 || - || 2.5*10^7 ||  2.7 || O || - || 0 || shoot-through no absorber ||
|-
|122 || low || 261.1 || - || 2.5*10^7 ||  3.9 || O || - || 0 || range calibration no absorber ||
|-
|123 || low || 245.7 || - || 2.5*10^7 ||  4.1 || O || - || 0 || range calibration no absorber ||
|-
|124 || low || 231.4 || - || 1.5*10^7 ||  4.3 || O || - || 0 || range calibration no absorber ||
|-
|125 || low || 214.7 || - || 1.5*10^7 ||  4.5 || O || - || 0 || range calibration no absorber ||
|-
|126 || low || 200.9 || - || 2.5*10^7 ||  4.8 || O || - || 0 || range calibration no absorber ||
|-
|127 || low || 200.9 || - || 1.5*10^7 ||  4.8 || O || - || 0 || range calibration no absorber ||
|-
|128 || low || 184.5 || - || 1.5*10^7 ||  5.2 || O || - || 0 || range calibration no absorber ||
|-
|129 || low || 169 || - || 1.5*10^7 ||  5.6 || O || - || 0 || range calibration no absorber ||  
|-
|-
|00 || low || None || - || None || None || - || background || - |
|130 || low || 150.2 || - || 1.5*10^7 || 6.3 || O || - || 0 || range calibration no absorber ||  
|-
|-
|01 || low || 50.57 || 22.9 || 10^8 ||  18.6|| He || low energy, low intensity || - |
|131 || low || 124.7 || - || 1.5*10^7 ||  7.5 || O || - || 0 || range calibration no absorber ||  
|-
|-
|132 || low || 103.8 || - || 1.5*10^7 ||  8.8 || O || - || 0 || range calibration no absorber ||
|-
|133 || low || 233 || - || 1.5*10^7 ||  4.3 || O || - || 0 || range calibration no absorber ||
|-
|134 || low || 234.62 || - || 1.5*10^7 ||  4.2 || O || - || 0 || range calibration no absorber ||
|-
|135 || low || 236.24 || - || 1.5*10^7 ||  4.2 || O || - || 0 || range calibration no absorber ||
|-
|136 || low || 237.83 || - || 1.5*10^7 ||  4.2 || O || - || 0 || range calibration no absorber ||
|-
|137 || low || 239.42 || - || 1.5*10^7 ||  4.2 || O || - || 0 || range calibration no absorber ||
|-
|138 || low || 241 || - || 1.5*10^7 ||  4.2 || O || - || 0 || range calibration no absorber ||
|-
|139 || low || 242.58 || - || 1.5*10^7 ||  4.1 || O || - || 0 || range calibration no absorber ||
|-
|140 || low || 244.15 || - || 1.5*10^7 ||  4.1 || O || - || 0 || range calibration no absorber ||
|-
|141 || low || 245.71 || - || 1.5*10^7 ||  4.1 || O || - || 0 || range calibration no absorber ||
|-
|142 || low || 247.26 || - || 1.5*10^7 ||  4.1 || O || - || 0 || range calibration no absorber ||
|-
|143 || low || 248.83 || - || 1.5*10^7 ||  4.1 || O || - || 0 || range calibration no absorber ||
|-
|144 || low || 252.0 || - || 1.5*10^7 ||  4.0 || O || - || 0 || range calibration no absorber ||
|-
|145 || low || 253.54 || - || 1.5*10^7 ||  4.0 || O || - || 0 || range calibration no absorber ||
|-
|146 || low || - || - || - ||  - || - || - || - || background ||
|-
|}
|}
==== Carbon ion beam ====


full sensor
-------------------
--------------------
---------------------
 
=== 13&ndash;14th April ===
* the detector has been Disassembled and assembled in the afternoon
 
*full sensor area
*shooting on '''BACK WINDOW'''
*images from sensor: User/Public/Document/EPIX/XCAP/data/20190413
 
* finding the best beam intensity
* Simon checking the intensity on pixels from dslr with nikon software
* camera settings
**exposure 1/10 sec (can change during runs)
**aperture f/3
**ISO 200


{| class="wikitable"
{| class="wikitable"
Line 317: Line 607:
!N particles
!N particles
!Spot size (mm)
!Spot size (mm)
!Test type
!ion type
!DSLR file name
!Degrader WET (mm)
!Comments
!Comments
!Thumbnail
!Thumbnail
|-
|-


|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || comments || - |
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || type || dslr file name DSC_ || degrader WET || comments ||
|-
|00 || low || None || - || None || None || - || DSC_231 || - || background ||
|-
|01 || high || None || - || None || None || - || - || - || background ||
|-
|none || - || - || - || - || - || - || - || - || '''Shoot-through calibration''' ||
|-
|02 || high ||  220.51  || - ||8x10^8 ||  4.9 || He || DSC_232 || 59 || shoot through 5cm PMMA. exposure 0.1 sec ||
|-
|03 || high ||  430.1  || - ||8x10^7 ||  3.4 || C || DSC_233 || 59 || shoot through 5cm PMMA. exposure 0.1 sec ||
|-
|04 || low ||  430.1  || - ||8x10^7 ||  3.4 || C || DSC_234 movie || 59 || shoot through 5cm PMMA. exposure 1/80 sec ISO 1600  ||
|-
|05 || low ||  430.1  || - ||3x10^7 ||  3.4 || C || DSC_235 || 59 || shoot through 5cm PMMA. exposure 0.2 sec ISO 200 ||  
|-
|-
|44 || high || None || - || None || None || - || background || - |
|06 || low || 220.51  || - ||3x10^8 || 4.9 || He || DSC_236 || 59 || shoot through 5cm PMMA. exposure 0.2 sec ||  
|-
|-
|}
|}


==== Proton beam ====
------------------------------------
 
--------------------------------------
full sensor
*shooting on '''FRONT WINDOW'''
* camera OFF


{| class="wikitable"
{| class="wikitable"
Line 340: Line 647:
!N particles
!N particles
!Spot size (mm)
!Spot size (mm)
!Test type
!ion type
!DSLR file name
!Degrader WET (mm)
!Comments
!Comments
!Thumbnail
!Thumbnail
|-
|-
 
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || type || dslr file name DSC_ || degrader WET || comments ||  
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || comments || - |
|-
|07 || low || None || - || None || None || - || OFF || - || background ||
|-
|08 || high || None || - || None || None || - || - || - || background ||
|-
|none || - || - || - || - || - || - || - || - || '''Shoot-through calibration''' ||
|-
|09 || high ||  220.51  || - ||8x10^8 ||  4.9 || He || - || 59 || shoot through 5cm PMMA.  ||
|-
|10 || high ||  430.1  || - ||8x10^7 ||  3.4 || C || - || 59 || shoot through 5cm PMMA.  ||
|-
|11 || low ||  430.1  || - ||3x10^7 ||  3.4 || C || - || 59 || shoot through 5cm PMMA.  ||
|-
|12 || low ||  220.51  || - ||3x10^8 ||  4.9 || He || -|| 59 || shoot through 5cm PMMA.  ||
|-
|none || - || - || - || - || - || - || - || - || '''Carbon and Helium SOBP and single energy pencil beam''' ||
|-
|13 || low || None || - || None || None || - || - || - || background 6 pix in the centre ||
|-
|14 || high || None || - || None || None || - || - || - || background 6 pix in the centre ||
|-
|15 || high ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C || - || 0 || SOBP no absorber. sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml 3mm Ripple filter always IN for SOBP  ||
|-
|16 || high ||  approx max 210  min 172  || - ||8*10^8 || 10.2 - 8.7  || He || - || 0 || SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml Problem with the total dose a factor 10 higher than C.3mm Ripple filter always IN for SOBP  ||
|-
|17 || high ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 0 || SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml. Too long but saved. Problem with the total dose a factor 10 higher than C. 3mm Ripple filter always IN for SOBP  ||
|-
|18 || high ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 0 || SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml NEW FILE *_2Gy respect to the previous. 3mm Ripple filter always IN for SOBP  ||
|-
|19 || high ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 0 || pencil beam. no absorber. full sensor  ||
|-
|20 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 0 || pencil beam. no absorber. full sensor  ||
|-
|21 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 0 || pencil beam. no absorber. full sensor. Image saturated!  ||
|-
|22 || high ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 0 || pencil beam. no absorber. full sensor  ||
|-
|23 || low ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 0 || SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|24 || low ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 221.15 || SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|25 || low ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C || - || 221.15 || SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|26 || high ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C ||- || 221.15 || SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|27 || high ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 221.15 || SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|28 || high ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 221.15 || pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor  ||
|-
|29 || high ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 221.15 || pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor  ||
|-
|30 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 221.15 || pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor  ||
|-
|31 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 221.15 || pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor  ||
|-
|32 || low ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 175.65 || SOBP 15 cm PMMA (5+5+5 cm). Removed 2+2 cm PMMA: WET1= 2.271 + WET2 = 2.279 sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|33 || low ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C ||- || 175.65 || SOBP 15 cm PMMA (5+5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|34 || high ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C ||- || 175.65 || SOBP 15 cm PMMA (5+5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|35 || high ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 175.65 || SOBP 15 cm PMMA (5+5+5 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|36 || high ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 175.65 || pencil beam. 15 cm PMMA (5+5+5 cm). full sensor  ||
|-
|37 || high ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 175.65 || pencil beam. 15 cm PMMA (5+5+5 cm). full sensor  ||
|-
|38 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 175.65 || pencil beam. 15 cm PMMA (5+5+5 cm). full sensor  ||
|-
|39 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 175.65 || pencil beam. 15 cm PMMA (5+5+5 cm). full sensor  ||
|-
|40 || low ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 118.01 || SOBP 10 cm PMMA (5+5 cm). Removed 5cm PMMA WET= 5.764 cm sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|41 || low ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C || - || 118.01 || SOBP 10 cm PMMA (5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|42 || high ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C || - || 118.01 || SOBP 10 cm PMMA (5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|43 || high ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 118.01 || SOBP 10 cm PMMA (5+5 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|44 || high ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 118.01 || pencil beam. 10 cm PMMA (5+5 cm). full sensor  ||
|-
|45 || high ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 118.01 || pencil beam. 10 cm PMMA (5+5 cm). full sensor  ||
|-
|46 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 118.01 || pencil beam. 10 cm PMMA (5+5 cm). full sensor  ||
|-
|47 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 118.01 || pencil beam. 10 cm PMMA (5+5 cm). full sensor  ||
|-
|48 || low ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 59 || SOBP 5 cm PMMA (WET = 5.9 cm). Removed 5cm PMMA WET = 5.901 cm. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennar/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|49 || low ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C || - || 59 || SOBP 5 cm PMMA. sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|50 || high ||  max 210  min 172  || - ||8*10^7 ||  9.1 - 10.4 || C || - || 59 || SOBP 5 cm PMMA. sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml  ||
|-
|51 || high ||  approx max 210  min 172  || - ||8*10^7 || 10.2 - 8.7  || He || - || 59 || SOBP 5 cm PMMA. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml||
|-
|52 || high ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 59 || pencil beam. 5 cm PMMA. full sensor  ||
|-
|53 || high ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 59 || pencil beam. 5 cm PMMA. full sensor  ||
|-
|54 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 59 || pencil beam. 5 cm PMMA. full sensor  ||
|-
|55 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 59 || pencil beam. 5 cm PMMA. full sensor. Image saturated!  ||
|-
|56 || low || None || - || None || None || - || OFF || - || background ||
|-
|none || - || - || - || - || - || - || - || - || '''Variable air gap measurements''' ||
|-
|57 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 238.36 || pencil beam. 5cm PMMA upstream, pair '''1mm x 0mm air gap width'''. + sheets 2mm + 5mm + 1 cm +2cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|58 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 238.36 || pencil beam. 5cm PMMA upstream, pair 1mm x 0mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|59 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || Removed material to move peak towards end of scintillator stack compared to run 58. pencil beam. 5cm PMMA (WET 5.364 cm) upstream, pair 1mm (WET 0.112 cm) x 0mm air gap width. + sheets 2mm (WET 0.25 cm ) + 5mm (WET 0.582 cm) + 1 cm (WET 1.177 cm) +2cm (WET 2.271 cm) + 5cm (WET 5.901 cm) +5cm PMMA (WET 5.9 cm). full sensor  ||
|-
|60 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 1mm x 0mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|61 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''1mm x 2mm air gap width'''. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|62 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 1mm x 2mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|63 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''1mm x 5mm air gap width'''. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|64 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 1mm x 5mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|65 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''1mm x 10mm air gap width'''. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|66 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 1mm x 10mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor  ||
|-
|67 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''2mm x 0mm air gap width'''. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|68 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 0mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|69 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''2mm x 2mm air gap width'''. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|70 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor. System interlock. Don't use it. ||
|-
|71 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|72 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|73 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|74 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''2mm x 0mm air gap width'''. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|75 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 0mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|76 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''2mm x 5mm air gap width'''. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|77 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|78 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|79 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|80 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''2mm x 10mm air gap width'''. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|81 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|82 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|83 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor  ||
|-
|84 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''5mm x 0mm air gap width'''. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|85 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|86 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|87 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|88 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''5mm x 2mm air gap width'''. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|89 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|90 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|91 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|92 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''5mm x 5mm air gap width'''. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|93 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|94 || low ||  219.8  || - ||8x10^7 ||  10.3 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|95 || low ||  219.8  || - ||8x10^7 ||  6.4 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|96 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|97 || low ||  220.51  || - ||8x10^7 ||  10.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|98 || low ||  220.51  || - ||8x10^7 ||  6.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|99 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|100 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair '''5mm x 10mm air gap width'''. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|101 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|102 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|103 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.57 || pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor  ||
|-
|104 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair '''10mm''' (left beam view: 1.07 cm - WET 1.177 ) - (right: 0.97 cm + 0.1 cm - WET 1.124 cm + 0.114 ) '''x 0mm air gap''' width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|105 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|106 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|107 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|108 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair '''10mm x 2mm''' air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|109 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|110 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|111 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|112 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair '''10mm x 5mm''' air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|113 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|114 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|115 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|116 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair '''10mm x 10mm''' air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|117 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|118 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|119 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.875 || pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor  ||
|-
|120 || low || None || - || None || None || - || OFF || - || background. full sensor ||
|-
|none || - || - || - || - || - || - || - || - || '''5mm air gap downstream of carbon Bragg peak''' || - |
|-
|121 || low ||  220.51  || - ||8x10^7 ||  8.1 || He || - || 215.50 || pencil beam. 5cm PMMA (WET 5.364 cm) + 1 cm (WET 1.177 cm) + 1mm (WET 0.112 cm)+ 2mm (WET 0.25 cm ) + 5cm (WET 5.901 cm) +5cm PMMA (WET 5.9 cm) + 5mm pair (WET 0.582 and 0.562) '''5mm air gap''' +2cm (WET 2.274 cm). full sensor||
|-
|122 || low ||  219.8  || - ||8x10^7 ||  8.5 || C || - || 215.50 || pencil beam. 5cm PMMA  + 1 cm + 1mm  + 2mm  + 5cm +5cm PMMA + 5mm pair with 5mm air gap +2cm . full sensor||
|-
|123 || low ||  219.8  || - ||8x10^7 ||  4.7 || C || - || 215.50 || pencil beam. 5cm PMMA  + 1 cm + 1mm  + 2mm  + 5cm +5cm PMMA + 5mm pair with 5mm air gap +2cm. full sensor||
|-
|124 || low ||  220.51  || - ||8x10^7 ||  4.9 || He || - || 215.50 || pencil beam. 5cm PMMA  + 1 cm + 1mm  + 2mm  + 5cm +5cm PMMA + 5mm pair with 5mm air gap +2cm. full sensor||
|-
|none || - || - || - || - || - || - || - || - || '''Half covered 2mm air gap''' ||
|-
|125 || low || None || - || None || None || - || OFF || - || background. sensor readout 100 px. wrong horizontal offset in XCAP software ||
|-
|126 || low ||  210  || - ||8x10^7 ||  10.2 || He || _238 movie || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA (WET 5.364 cm) + '''2mm (full in)''' + 1 cm (WET 1.177 cm) + 1mm + 5cm (WET 5.901 cm) +5cm PMMA (WET 5.9 cm) + 5mm  (WET 0.583 cm 0.562)  +2cm (WET 2.274 cm). full sensor wrong horizontal offset in XCAP software. setting 25 frames/sec.  shutter speed 1/25 sec aperfure f/3 ISO 2000||
|-
|127 || low ||  210  || - ||8x10^7 ||  10.2 || C || - || 215.50 || SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm + 1 cm  + 1mm + 5cm  +5cm PMMA  + 5mm  +2cm . full sensor. setting 25 frames/sec wrong horizontal offset in XCAP software. ||
|-
|128 || low ||  210  || - ||8x10^7 ||  10.2 || C || 239 || 215.50 || SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm + 1 cm  + 1mm + 5cm  +5cm PMMA  + 5mm  +2cm . full sensor. offset adjusted. setting 25 frames/sec. ||
|-
|129 || low ||  210  || - ||8x10^7 ||  10.2 || He || - || 215.50 || SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm + 1 cm  + 1mm + 5cm  +5cm PMMA  + 5mm  +2cm . full sensor. offset adjusted. setting 25 frames/sec. ||
|-
|130 || low || None || - || None || None || - || - || - || background. sensor readout 100 px. offset adjusted ||
|-
|131 || low ||  210  || - ||8x10^7 ||  10.2 || He || _240 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm (8mm further in than half inserted from the left. '''air gap on the right''') + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm.||
|-
|132 || low ||  210  || - ||8x10^7 ||  10.2 || C || _242 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm (8mm further in than half inserted from the left. air gap on the right) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm.||
|-
|133 || low ||  210  || - ||8x10^7 ||  10.2 || C || _243 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm ('''half inserted'''.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 2000||
|-
|134 || low ||  210  || - ||8x10^7 ||  10.2 || He || _244 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm (half inserted.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 2000||
|-
|none || low ||  210  || - ||8x10^7 ||  10.2 || He || _245 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm (half inserted.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 8000||
|-
|none || low ||  210  || - ||8x10^7 ||  10.2 || C || _247 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm (half inserted.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 8000||
|-
|135 || low ||  210  || - ||8x10^7 ||  10.2 || C || _248 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm ('''8mm pulled out'''.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 8000||
|-
|136 || low ||  210  || - ||8x10^7 ||  10.2 || He || _249 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm (8mm pulled out.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 8000||
|-
|137 || low ||  210  || - ||8x10^7 ||  10.2 || He || _250 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + '''2mm gap''' (pulled out.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 8000||
|-
|138 || low ||  210  || - ||8x10^7 ||  10.2 || C || _251 || 215.50 || transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA  + 2mm gap (pulled out.) + 1 cm  + 1mm + 5cm  +5cm PMMA + 5mm +2cm. ISO 8000||
|-
|none || - || - || - || - || - || - || - || - || '''Moving Platform''' ||
|-
|139 || low ||  210  || - ||8x10^7 ||  10.2 || He || _253 || 215.50 || moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm (WET 5.364 cm); '''5mm air gap'''; downstream PMMA absorber 13.3cm. ISO 3200||
|-
|140 || low ||  210  || - ||8x10^7 ||  10.2 || He || _254 || 215.50 || moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200||
|-
|141 || low ||  210  || - ||8x10^7 ||  10.2 || He || _255 || 215.50 || moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200. Moving platform video run01 on Raffy's phone|| 
|-
|142 || low ||  210  || - ||8x10^7 ||  10.2 || He || _256 || 215.50 || moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200. Moving platform video run02 on Raffy's phone|| 
|-
|143 || low ||  210  || - ||8x10^7 ||  10.2 || He || _257 || 215.50 || moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200 moving platform Simon video || 
|-
|none || - || - || - || - || - || - || - || - || '''Moving 2mm air gap oval shape''' ||
|-
|144 || low ||  210  || - ||8x10^7 ||  10.2 || He || _258 || 215.155 || SOBP 10x10  single layer. upstream PMMA absorber 5cm (WET 5.364 cm); '''2mm air gap oval shape''' 3cm w x 1cm h centered with the beam. Composed of 1x2mm thick sheet (WET 0.219mm) and 2x1mm thick sheets (WET 0.115cm and 0.115cm); downstream PMMA absorber 13.6cm PMMA (WET 15.936cm). ISO 3200||
|-
|145 || low ||  210  || - ||8x10^7 ||  10.2 || He || _259 || 215.155 || SOBP 10x10  single layer. upstream PMMA absorber 5cm; 2mm (1mm + 1mm) air gap oval shape 3cm w x 1cm h; downstream PMMA absorber 13.6cm PMMA. ISO 8000||
|-
|146 || low ||  210  || - ||8x10^7 ||  10.2 || C || _260 || 215.155 || SOBP 10x10  single layer. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h; downstream PMMA absorber 13.6 cm PMMA. ||
|-
|147 || low ||  220.5  || - ||8x10^7 ||  8.1 || He ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h centered with the beam; downstream PMMA absorber 13.6 cm PMMA. ||
|-
|148 || low ||  220.5  || - ||8x10^7 ||  8.1 || He ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h '''1.5 cm shifted to the right''' from beam eye view. gap edge in the midle of the beam; downstream PMMA absorber 13.6 cm PMMA. ||
|-
|149 || low ||  219.8  || - ||8x10^7 ||  8.5 || C ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 1.5 cm shifted to the right drom beam eye view. gap edge in the midle of the beam; downstream PMMA absorber 13.6 cm PMMA. ||
|-
|150 || low ||  219.8  || - ||8x10^7 ||  8.5 || C ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h '''3cm shifted to the right'''. downstream PMMA absorber 13.6 cm PMMA. ||
|-
|151 || low ||  220.5  || - ||8x10^7 ||  8.1 || He ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 3 cm shifted to the right from beam eye view. downstream PMMA absorber 13.6 cm PMMA. ||
|-
|152 || low ||  219.8  || - ||8x10^7 ||  8.5 || C ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h '''centered'''. downstream PMMA absorber 13.6 cm PMMA. ||  
|-
|-
|79 || high || None || - || None || None || - || background || - |
|153 || low || 219.8  || - ||8x10^7 || 8.5 || C ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h '''1.5 cm cm shifted to the left''' for . downstream PMMA absorber 13.6 cm PMMA. ||  
|-
|-
|}
|154 || low ||  220.5  || - ||8x10^7 ||  8.1 || He ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 1.5 cm shifted to the left from beam eye view. downstream PMMA absorber 13.6 cm PMMA. ||
 
=== 14&ndash;15th April ===
 
Beam focus ranges from step 1 (smallest) to step 4 (of 6).
 
==== Helium ion beam ====
 
full sensor area
 
{| class="wikitable"
 
!Run number
!Full Well Mode
!Beam Energy (MeV/u)
!Range (estimated)
!N ions /s
!Spot size (mm)
!Test type
!Comments
!Thumbnail
|-
|-
|N || well mode || Energy MeV/u || Range || ions/s || Spot FWHM || test || comments || - |
|155 || low || 220.5  || - ||8x10^7 || 8.1 || He || || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h '''3 cm shifted to the left''' from beam eye view. downstream PMMA absorber 13.6 cm PMMA. ||  
|-
|-
|00 || high || None || - || None || None || - || background || - |
|156 || low || 219.8  || - ||8x10^7 || 8.5 || C ||  || 215.155 || pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 3 cm cm shifted to the left for . downstream PMMA absorber 13.6 cm PMMA. ||  
|-
|-
|01 || high || 50.57 || 22.9 || 8x10^8 || 18.6 || He || low energy, max clinical intensity || - |
|}
|}


==== Mixed Helium and Carbon ions beam ====
---------------------
----------------------
------------------------


full sensor
=== 14&ndash;15th April ===
 
*full sensor area
*shooting on '''FRONT WINDOW'''
*images from sensor: User/Public/Document/EPIX/XCAP/data/20190414 ?


{| class="wikitable"
{| class="wikitable"
Line 390: Line 993:
!N particles
!N particles
!Spot size (mm)
!Spot size (mm)
!Test type
!ion type
!DSLR file name
!Degrader WET (mm)
!Comments
!Comments
!Thumbnail
!Thumbnail
|-
|-


|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || test || comments || - |
|N || well mode || Energy MeV/u || Range || particles || Spot FWHM || type || dslr file name DSC_ || degrader WET || comments |
|-
|00 || low || None || - || None || None || - || OFF || - || background ||
|-
|01 || high || None || - || None || None || - || - || - || background ||
|-
|none || - || - || - || - || - || - || - || - || '''Shoot-through calibration''' ||
|-
|02 || high ||  220.51  || - ||8x10^8 ||  4.9 || He || - || 59 || shoot through 5cm PMMA.  ||
|-
|03 || high ||  430.1  || - ||8x10^7 ||  3.4 || C || - || 59 || shoot through 5cm PMMA.  ||
|-
|04 || low ||  430.1  || - ||8x10^7 ||  3.4 || C || - || 59 || shoot through 5cm PMMA.  ||
|-
|05 || low ||  220.51  || - ||8x10^8 ||  4.9 || He || - || 59 || shoot through 5cm PMMA.  ||
|-
|06 || low ||  220.51  || - ||3x10^8 ||  4.9 || He || - || 59 || shoot through 5cm PMMA.  ||
|-
|none || - || - || - || - || - || - || - || - || '''Lung phantom''' ||
|-
|07 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || '''+20mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|08 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || +20mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|09 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || '''+15mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|10 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|11 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || '''+10mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|12 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|13 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || '''+5mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|14 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|15 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || '''tumour isocenter'''. Detector window distance from tumour isocenter = 28cm  ||
|-
|16 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|17 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|18 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|19 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || '''-5mm below''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|20 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|21 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || -5mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm  ||
|-
|22 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || -5mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm  ||
|-
|23 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || '''-10mm below''' tumour isocenter. Detector window distance from tumor isocenter = 28cm  ||
|-
|24 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|25 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|26 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|27 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || '''-15mm below''' tumor isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|28 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || -15mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm  ||
|-
|29 || low ||  180.89  || - ||8x10^7 ||  9 || C || - || 0 || -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|30 || low ||  180.29  || - ||8x10^7 ||  8.5 || He || - || 0 || -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|31 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|32 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|33 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|34 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|35 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || '''-10mm below''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|36 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|37 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|38 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|39 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || '''-5mm below''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|40 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|41 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|42 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|43 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || '''tumour isocenter'''. Detector window distance from tumour isocenter = 28cm  ||
|-
|44 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|45 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|46 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|47 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || '''+5mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|48 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|49 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|50 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|51 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|52 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|53 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || '''+10mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|54 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|55 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|56 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|57 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|58 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|59 || low ||  180.89  || - ||8x10^7 ||  5.5 || C || - || 0 || '''+15mm above''' tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|60 || low ||  160  || - ||8x10^7 ||  6.2 || C || - || 0 || +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|61 || low ||  160  || - ||8x10^7 ||  9.4 || C || - || 0 || +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|62 || low ||  160.7  || - ||8x10^7 ||  6.2 || He || - || 0 || +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|63 || low ||  160.7  || - ||8x10^7 ||  9 || He || - || 0 || +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|64 || low ||  180.29  || - ||8x10^7 ||  5.5 || He || - || 0 || +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm  ||
|-
|none || - || - || - || - || - || - || - || - || '''high energy Bragg peak''' ||
|-
|65 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 517.33 || '''45cm PMMA''' (from the detector upstream WET 57.85mm + 57.81mm + 57.97mm + 59.0mm + 59.01mm + 57.64mm + 22.71mm + 22.74mm + 11.24mm + 11.77mm + 10.68mm +  11.25mm + 11.26mm + 10.95mm + 10.92mm + 11.00mm + 10.77mm + 11.95mm + 10.81mm). '''50 cm WET''' approx.  check mail simon Sheet stack 14/4/2019 32.10 ||
|-
|66 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 517.33 || 45cm PMMA. 50 cm WET approx  ||
|-
|67 || high ||  324.26  || - ||7x10^7 ||  3.8 || C || - || 517.33 || 45cm PMMA. 50 cm WET approx  ||
|-
|68 || low ||  324.26  || - ||7x10^7 ||  3.8 || C || - || 517.33 || 45cm PMMA. 50 cm WET approx  ||
|-
|69 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 448.87 || '''39cm PMMA''' (from the detector upstream WET 57.85mm + 57.81mm + Unlabelled (approx. 57.8mm; 50mm physical) + 59.0mm + 59.01mm + 57.64mm  + 9 x 10mm approx.).  ||
|-
|70 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 448.87 || 39cm PMMA. ||
|-
|71 || high ||  324.26  || - ||7x10^7 ||  3.8 || C || - || 448.87 || 39cm PMMA.  ||
|-
|72 || low ||  324.26  || - ||8x10^7 ||  3.8 || C || - || 448.87 || 39cm PMMA. Carbon intensity uncertainty up to 6%  ||
|-
|73 || high ||  324.26  || - ||8x10^7 ||  3.8 || C || - || 448.87 || 39cm PMMA. ||
|-
|74 || high ||  324.26  || - ||8x10^7 ||  3.8 || C || - || 517.33 || '''45cm PMMA''' (from the detector upstream WET 57.85mm + 57.81mm + Unlabelled (approx. 57.8mm; 50mm physical) + 59.0mm + 59.01mm + 57.64mm + 22.71mm + 22.74mm + 11.24mm + 11.77mm + 9 x 10mm approx. ). '''50 cm WET approx'''  ||
|-
|75 || low ||  324.26  || - ||8x10^7 ||  3.8 || C || - || 517.33 || 45cm PMMA. 50 cm WET  ||
|-
|76 || low ||  324.26  || - ||8x10^7 ||  3.8 || C || - || 349.28 || '''30cm PMMA''' (from the detector upstream WET 57.85mm + 57.81mm + Unlabelled (approx. 57.8mm; 50mm physical) + 59.0mm + 59.01mm + 57.64mm. ). ||
|-
|77 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 349.28 || 30cm PMMA.  ||
|-
|78 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 349.28 || 30cm PMMA. ||
|-
|79 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 349.28 || 30cm PMMA.  ||
|-
|80 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 349.28 || 30cm PMMA.  ||
|-
|81 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 233.5 || '''20cm PMMA''' (from the detector upstream WET 57.85mm (big block) + 59.0mm + 59.01mm + 57.64mm. ).  ||
|-
|82 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 233.5 || 20cm PMMA  ||
|-
|83 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 233.5 || 20cm PMMA. ||
|-
|84 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 233.5 || 20cm PMMA.  ||
|-
|85 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 || '''10cm PMMA''' (from the detector upstream WET 59.0mm + 59.01mm ).  ||
|-
|86 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 || 10cm PMMA  ||
|-
|87 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 || 10cm PMMA  ||
|-
|88 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 || 10cm PMMA  ||
|-
|89 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 59.0 || '''5cm PMMA''' (from the detector upstream WET 59.0mm).  ||
|-
|90 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 59.0 || 5cm PMMA ||
|-
|91 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 59.0 || 5cm PMMA ||
|-
|92 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 59.0 || 5cm PMMA ||
|-
|93 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 0 || '''no absorber'''.  ||
|-
|94 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 0 || no absorber.  ||
|-
|95 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 0 || no absorber.  ||
|-
|96 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 0 || no absorber.  ||
|-
|none || - || - || - || - || - || - || - || - || '''ADAM PETer phantom measurements''' ||
|-
|97 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 + ??? || phantom in upright position. alignment with '''tumour isocenter'''. alignment with isocenter vertical axis ('''no rotation'''). 2cm PMMA degrader in front of beam (WET ). '''19cm PMMA''' downstream (WET ?) ||
|-
|98 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || phantom in upright position. alignment with '''tumour isocenter'''. alignment with isocenter vertical axis ('''no rotation'''). 2cm PMMA degrader in front of beam (WET 2.274). '''15cm PMMA''' downstream (WET 5.364 + 5.901 + 5.9) ||
|-
|99 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|100 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|101 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|102 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || '''-1cm below''' tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|103 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|104 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|105 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|106 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || '''-0.5cm below''' tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|107 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|108 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|109 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|110 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || '''+0.5cm above''' tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|111 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|112 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|113 || low ||  324.26  || - ||7x10^8 ||  7 || He || -|| 194.39 || +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|114 || low ||  324.26  || - ||7x10^8 ||  7 || He || -|| 194.39 || '''+1cm above''' tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|115 || high ||  324.26  || - ||7x10^8 ||  7 || He || -|| 194.39 || +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|116 || high ||  324.26  || - ||8x10^7 ||  8 || C || -|| 194.39 || +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|117 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  || -|
|-
|118 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || '''tumour isocenter''' approx (tumour just below the isocenter.). ('''no rotation'''). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|119 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter approx (tumour just below the isocenter.). (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|120 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumour isocenter approx (tumour just below the isocenter.). (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
| none || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || No measurement taken. Sensor had to be restarted. expected to be saturated. tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream.  ||
|-
|121 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || '''tumour isocenter'''. '''+2 degree rotation''' anticlockwise from beam eye. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|122 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumour isocenter. +2 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|123 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter. +2 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|124 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter. +2 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|125 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || '''tumour isocenter'''. '''no rotation'''. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|126 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|127 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|128 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|129 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || '''tumour isocenter'''. '''+4 degree rotation''' anticlockwise. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|130 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumour isocenter. +4 degree rotation anticlockwise. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|131 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumour isocenter. +4 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|132 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumor isocenter. +4 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|133 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || '''tumour isocenter'''. '''+10 degree rotation'''. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|134 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 194.39 || tumor isocenter. +10 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|135 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumor isocenter. +10 degree rotation . 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|136 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 194.39 || tumor isocenter. +10 degree rotation . 2cm PMMA degrader in front of beam. 15cm PMMA downstream  ||
|-
|none || - || - || - || - || - || - || - || - || '''ADAM phantom measurements''' ||
|-
|137 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 || Aligned with '''isocenter'''. '''rectal balloon''' inserted to 15cm but '''Uninflated''' .'''no rotation'''. 10cm PMMA downstream (WET  5.901 + 5.9). phantom in lay down position  ||
|-
|138 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|139 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|140 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|141 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 || ''' isocenter'''. '''no rotation'''. rectal balloon Inflated with '''30 Ml Air'''. 10cm PMMA downstream  ||
|-
|142 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream  ||
|-
|143 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream  ||
|-
|144 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream  ||
|-
|145 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with '''45 Ml Air'''. 10cm PMMA downstream  ||
|-
|146 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|147 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|148 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|149 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with '''60 Ml Air'''. 10cm PMMA downstream  ||
|-
|150 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|151 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|152 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|153 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 || Aligned with '''predefined rectum spot'''. '''rectal balloon''' inserted but '''Uninflated''' .'''no rotation'''. 10cm PMMA downstream (WET  5.901 + 5.9). phantom in lay down position  ||
|-
|154 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|155 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|156 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|157 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 || Aligned with '''predefined rectum spot'''. '''no rotation'''. rectal balloon Inflated with '''30 Ml Air'''. 10cm PMMA downstream  ||
|-
|158 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream  ||
|-
|159 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream  ||
|-
|160 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream  ||
|-
|161 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  Aligned with '''predefined rectum spot'''. no rotation. rectal balloon Inflated with '''45 Ml Air'''. 10cm PMMA downstream  ||
|-
|162 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|163 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|164 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|165 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  Aligned with '''predefined rectum spot'''. no rotation. rectal balloon Inflated with '''60 Ml Air'''. 10cm PMMA downstream  ||
|-
|166 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|167 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|168 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|169 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 || Alignment with '''spot in between isocentre and predefined rectum spot''' (horizontal alignment isocenter, vertical 12 cm below isocenter). '''rectal balloon''' inserted but '''Uninflated''' .'''no rotation'''. 10cm PMMA downstream (WET  5.901 + 5.9). phantom in lay down position  ||
|-
|170 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|171 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|172 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Uninflated. 10cm PMMA downstream  ||
|-
|173 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 || Aligned with '''spot in between isocentre and predefined rectum spot'''. '''no rotation'''. rectal balloon Inflated with '''45 Ml Air'''. 10cm PMMA downstream  ||
|-
|174 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|175 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|176 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream  ||
|-
|177 || high ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  Aligned with '''spot in between isocentre and predefined rectum spot'''. no rotation. rectal balloon Inflated with '''60 Ml Air'''. 10cm PMMA downstream  ||
|-
|178 || low ||  324.26  || - ||7x10^8 ||  7 || He || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|179 || low ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|180 || high ||  324.26  || - ||8x10^7 ||  8 || C || - || 118.01 ||  spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream  ||
|-
|181 || high || None || - || None || None || - || - || - || background ||
|-
|182 || low || None || - || None || None || - || - || - || background ||  
|-
|-
|09 || high || 182.32 - 222.31 || 74.4 - 104.5 || - || 5.5 - 4.7 || C || Real Clinical SOBP, 6 pixel rows (512 offset), 100mm distal edge using clinical weighting with approx. equal time to deliver each layer with single on-axis spot. || - |
|}
|}

Latest revision as of 10:06, 18 August 2020

3 night shifts with range calorimeter + SDLR

Experiment Equipment

Item Notes
Network Hub Set in control room to take output from experimental room ethernet connection. Control laptops connected via 5GHz WiFi.
Control Laptop x3 2x remote control for sensor and DSLR, 1 for notes
Ethernet Cable x 2 To connect DAQ laptop to network in the experimental room, network hub to network in control room.
Portable Enclosure Modified Big Zarges Waterproof Wheeled Equipment Case.

Features mount for scintillator and DSLR, front and back openings for beam, patch panel with ports for SHV, BNC, SMA, USB, Camera Link cables.
Hole for sensor powering.
Mylar windows with Al support mounted to internal face: approximately light-tight.

Scintillator stack 14 x 2 mm, 15 x 2.6 mm and 20 x 3 mm sheets in ascending order from the front/beam of the end of the scintillator. Sheet 21 not used. Sheet numbers from front to end (in beam direction): 30,29,28,27,26,22,19,18,17,15,14,13,10,7,25,24,23,20,16,12,11,9,8,6,5,4,3,2,1,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50.
ISDI CMOS sensor sensor pixel dimension: 1030 x 1536. NO optical grease between scintillator and sensor. Connected to DAQ PC via Camera Link cable.
Nikon D7500 Connected to DAQ Laptop via USB cable.
DAQ laptop Controls sensor aquisition and DSLR aquisition.
Gloves For handling scintillator
Digital Caliper For measuring PMMA air gaps

Range Detector Experiment

HITApr2019_setup.png

ISDI Sensor Instructions

General Sensor Configuration

  • Base Configuration is 14 x 1 Bit
  • Resolution is 1030 x 1536 pixels
  • For selecting pixel rows in centre: Use horizontal offset (ignore DVAL to activate field) and horizontal resolution

Increase number of frame buffers

  • To increase the number of frame buffers to the allowed maximum, start XCAP as administrator.
  • Select Capture/Sequence Capture/Video to Frame Buffers/Driver Assistant
  • Tick box in left field, then set number of frame buffers here.

Serial Terminal instructions for ISDI sensor

  • Find serial terminal in PIXCI(R) tab of sensor control software.
  • In Controls/Options: Make sure "Send string with CR" is selected. Should be default.
  • In Controls/Setup: Select Serial Port: Enabled. Baud rate has to be 115200
  • Set low full well mode using W000300000
  • Set high full well mode using W000300004
  • Read full well mode using R0003

Continuous Field buffer setting

  • This setting makes sure that the buffer is filled with a new frame as they come in. If this option is not selected the sensor and software will not be synchronised and we *will record a lot of pitch black images.
  • Select Capture/Live Options//Live Mode/Live Video: Continuous All buffer capture

Experiment Plan

12–13th April

  1. Find convenient beam intensity that does not saturate sensor: lowest clinical beam energy, smallest beam focus
  2. Calibration of detector (highest clinical energy). Shoot from front and back of stack (we have a new entrance window at the back of the stack). Also calibrate at different focus sizes. Also test camera: focus on front of beam stack and centre of beam stack and compare.
  3. Test focus (beam size) dependence: shoot pencil beam with ~10 cm range at different focus sizes
  4. Measure WET of known blocks of plastic to calibrate range telescope using a pencil beam with ~10cm range. Lennart will check if he can find some PMMA slabs whose WET has been accurately measured. Ideally have some slabs between ~1mm and ~5cm WET thickness. We know that there are some PMMA slabs between 1mm and 5cm thickness, measured by Giulia Arico (OMA fellow). These measurements will be used to benchmark Laurent's reconstruction code. Use tightest beam focus.
  5. Repeat 0.-3. with all available ions (protons, helium, carbon and oxgen)
  6. Measure SOBP of protons. 10cm deep, 3cm plateau
  7. Measure high proton energies (up to 250MeV) using PMMA absorber in front of range telescope.
  8. Measure a couple of oxygen pencil beams (range shift) and SOBP
  9. Disassemble detector.

13–14th April

  1. Shoot-through calibration for Helium and Carbon: 430.1MeV/u Carbon 30cm range, He 220.5MeV/u 30cm range.
    1. High full-well mode C Intensity: 8*10^7; He Intensity: 8x10^8.
    2. Low full well mode C Intensity: 3*10^7; He Intensity 3*10^8.
    3. Rotate detector; repeat.
  2. Carbon and Helium SOBP and single energy pencil beam:
    1. 2 Gy SOBP Carbon, Helium mix keep same intensity here and scale down later in data processing.
    2. Carbon and Helium Intensities both 8*10^7 (low Helium intensity!). Both high and low full well modes. Only measure low full well as sensor starts to come out of saturation.
    3. Carbon SOBP max range ~9cm (plateau 3cm longitudinal, 3x3cm2 lateral), He SOBP max range ~27 cm.
    4. Repeat with 220MeV/u pencil beam (C 10cm, He 30 cm).
  3. Add PMMA blocks, repeat previous measurement. 24 measurements; 5 changes in room. (5+5+5+2+2cm PMMA blocks, 19cm PMMA in total). Both high and low full well mode.
  4. Variable air gap measurements:
    1. 5cm PMMA, air gap, remaining PMMA absorber; total thickness of 20.8cm. Downstream sheets 5+5+2cm PMMA sheets plus half of unused pairs.
    2. Vary air gap width: 0mm, 2mm, 5mm, 10mm.
    3. Vary air gap depth: 1mm, 2mm, 5mm, 10mm.
    4. Upstream PMMA absorber 5cm; downstream PMMA absorber varies from 12.8cm to 13.7cm.
    5. 32 measurements, 16 absorber changes.
    6. For 5mm x 5mm gap, adjust focal spot size.
    7. Energy 220 MeV/u for both; intensity 8*10^7 for both; use focus setting 3 (8.5mm for Carbon; 8.1mm for Helium).
    8. Low full well mode for sensor.
  5. Half covered 2mm air gap:
    1. 5cm upstream PMMA, 2mm air gap on left-hand side, 13.6cm downstream PMMA absorber. 18.8cm total PMMA thickness.
    2. Sheet pulled out, 8mm pulled out from centre, half-centred, 8mm pushed in from centred, all the way in.
    3. Energy 210 MeV/u for both; intensity 8*10^7 for both; use focus setting 3 (8.5mm for Carbon; 8.1mm for Helium).
    4. Scan layer with 10x10 spots over 3x3cm area.
    5. Low full well mode for sensor.
    6. Take movie with DSLR.
  6. Moving platform measurements:
    1. Assemble PMMA stack on moving platform: upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. Total thickness still 18.8cm.
    2. Gap width 5mm; gap depth 5mm.
    3. Irradiate with single energy Helium plan: 10x1 spot array (3cm wide) and move platform at the same time. Spot dwell time ~200ms. Total plan irradiation time: 5s. Total platform movement: 4cm.
    4. Take images with sensor: use 100 pixel wide sensor strip and long acquisition.
    5. Energy 210 MeV/u for both; intensity 8*10^7 for both; use focus setting 3 (8.5mm for Carbon; 8.1mm for Helium).
  7. Lung phantom measurements only(!) if enough time. Take lung phantom, place it on height adjustable table, place tumor in beam (180 MeV/u C and He), lift it by 0.5 cm

14–15th April

  1. Shoot-through calibration for Helium and Carbon: 430.1MeV/u Carbon 30cm range, focus 4.9mm; He 220.5MeV/u 30cm range, focus 3.4mm. 5cm upstream PMMA absorber.
    1. High full-well mode C Intensity: 8*10^7; He Intensity: 8x10^8.
    2. Low full well mode C Intensity: 3*10^7; He Intensity 3*10^8.
  2. Lung phantom measurements with tumour.
    1. Align lung phantom with lasers. Lung tumour (about 1cm^3) sits positioned at isocentre.
    2. Monoenergetic pencil beam: Helium energy 180 MeV/u, Intensity 8*10^7, spot focus 3, Carbon 180MeV/u, intensity 8*10^7, spot focus 3.
    3. Use optimal full well mode for sensor: low full well mode.
    4. Step phantom vertically:
      1. 9 different heights.
      2. 5 mm vertical spacing.
      3. Start 20 mm below tumour, step phantom downwards until beam 20 mm above tumour.
    5. 8 changes in room plus initial setup; 18 total measurements (Carbon+Helium for each position).
  3. High energy Helium Bragg peak scan with absorber.
    1. Switch to higher Helium energies (remote controlled by accelerator crew):
      1. Carbon: energy 324.26 MeV/u, intensity 8*10^7, spot size 8mm.
      2. Helium: energy 324.26 MeV/u, intensity 7*10^8, spot size 7mm.
    2. Detector measurements in both high and low full well mode.
    3. Build up 50 cm of PMMA in front of detector. Remove PMMA stack in 10cm steps: final measurement with 10cm, 5cm and 0cm absorber in place to give shoot-through calibration.
    4. 7 PMMA steps, Carbon+Helium, high+low full well mode: 28 total measurements.
    5. After first measurement with 50cm WET absorber, measure activation of PMMA and detector with full stack in place.
  4. ADAM PETer phantom measurements.
    1. Use sensor high and low full well modes.
    2. Continue with higher Helium energies:
      1. Carbon: energy 324.26 MeV/u, intensity 8*10^7, spot size 8mm.
      2. Helium: energy 324.26 MeV/u, intensity 7*10^8, spot size 7mm.
    3. Setup: Place phantom in upright position. Fill with oil (measurements need to be fast, phantom heavily leaking oil). Place 2cm PMMA degrader in front of phantom; 15cm PMMA absorber between phantom and detector. Energy degraded down to ~300 MeV/u at phantom. Upstream face of Zarges case 28cm from isocentre.
    4. Align ADAM PETer in isocenter:
      1. Vertical shift by 5 mm.
      2. Start at -1cm and step upwards.
      3. 5 positions, 10 measurements, 4 changes in room.
    5. Align ADAM PETer in isocenter, rotate:
      1. 4 measurements (0, 2, 4, 10 degree).
      2. 4 measurements, 3 changes in room plus setup.
  5. ADAM phantom measurements.
    1. Use optimal sensor full well mode: probably high full well.
    2. Continue with higher Helium energies:
      1. Carbon: energy 324.26 MeV/u, intensity 8*10^7, spot size 8mm.
      2. Helium: energy 324.26 MeV/u, intensity 7*10^8, spot size 7mm.
    3. Setup: Place ADAM in isocentre. 15cm PMMA absorber between phantom and detector.
    4. 5 measurements: Uninflated rectum, 30 Ml Air, 45 Ml Air, 60 Ml Air, 75 Ml air. Rectum ballon inserted to 15cm.
    5. 5 measurements, 4 changes in room.
    6. Align isocenter with predefined spot. Repeat previous measurements. 5 measurements, 4 changes in room.
    7. Repeat measurement with spot in between isocentre and predefined rectum spot (horizontal alignment isocenter, vertical 1 cm below isocenter), and spot above isocenter (horizontal alignment isocenter, vertical alignment 1cm above).
    8. Repeat measurement with ADAM rotation:
      1. Align ADAM in isocenter.
      2. Rotate by 2 degree steps.
    9. Repeat measurement with ADAM horizontal shift:
      1. Align ADAM in isocenter.
      2. Horizontal shift by 1 cm.
  6. ADAM lower energy phantom measurements with AP beam (30 degree gantry rotation).
    1. Use optimal sensor full well mode: probably high full well.
    2. Switch to lower Helium energies:
      1. Carbon: energy 263.4 MeV/u, intensity 8*10^7, spot size 8mm.
      2. Helium: energy 263.4 MeV/u, intensity 7*10^8, spot size 7mm.
    3. Setup: place ADAM in isocentre in upright position.
    4. Repeat rectal balloon and rotation measurements.
  7. Water equivalent thickness measurements of 10 x 1cm sheets:
    1. Use optimal sensor full well mode: probably high full well.
    2. Shoot-through calibration with 220 MeV (30cm) proton range; 5cm upstream absorber.
    3. Switch to monoenergetic proton beam with 10cm range.
    4. Insert sheets one at a time and measure range shift.
    5. 11 measurements, 10 setup changes in room.

Experiment Notes

Range calorimeter measurements with ISDI sensor + scintillator stack.

12–13th April

images from sensor: User/Public/Document/EPIX/XCAP/data/20190512

images from dslr: User/Public/Document/Nikon/

  • full sensor area
  • shooting on BACK WINDOW
  • Simon checking the intensity on pixels from dslr with nikon software
  • camera settings
    • exposure 1/2 sec
    • aperture f/3
    • ISO 200
Run number Full Well Mode Beam Energy (MeV/u) Range (estimated) N particles (Hz) Spot size (mm) ion type DSLR file name Degrader WET (mm) Comments Thumbnail
N well mode Energy MeV/u Range particles Spot FWHM test dslr file name DSC_ degrader WET comments
00 low None - None None - - 0 background
01 high None - None None - - 0 background
not saved from Laurent high None - None None - DSC_145 0 intensity check
none - - - - - - - 0 Calibration : shoot through. no degrader
02 high 221.06 - 2*10^9 8.1 p DSC_147 0 shoot through no degrader
03 high 221.06 - 3.2*10^9 11.1 p DSC_149 0 shoot through no degrader. from now on exposure time on dslr 0.2 sec
04 high 221.06 - 3.2*10^9 20.0 p DSC_150 0 shoot through no degrader.
05 low 221.06 - 1.2*10^9 20.0 p DSC_151 0 shoot through no degrader. exposure time back to 0.5 sec
06 low 221.06 - 1.2*10^9 11.1 p DSC_152 0 shoot through no degrader.
07 low 221.06 - 1.2*10^9 8.1 p DSC_153 0 shoot through no degrader.
08 high 220.51 - 8*10^8 4.9 He DSC_155 0 shoot through no degrader. exposure 0.1 sec
09 high 220.51 - 8*10^8 8.1 He DSC_156 0 shoot through no degrader.
10 high 220.51 - 8*10^8 10.1 He DSC_157 0 shoot through no degrader.
11 high 430.1 - 8*10^7 3.4 C DSC_159 0 shoot through no degrader. ripple filter 3mm
12 high 430.1 - 8*10^7 7.8 C DSC_160 0 shoot through no degrader. ripple filter 3mm
13 high 430.1 - 8*10^7 20 C DSC_161 0 shoot through no degrader.ripple filter 3mm. exposure 0.5 sec
14 high 430.1 - 8*10^7 3.4 C DSC_162 59 shoot through. PMMA 5 cm
15 high 430.1 - 8*10^7 7.8 C DSC_163 59 shoot through. PMMA 5cm
16 high 430.1 - 8*10^7 20 C DSC_164 59 shoot through. PMMA 5cm
17 high 220.51 - 8*10^8 4.9 He DSC_165 59 shoot through. PMMA 5 cm. exposure 0.1
18 high 220.51 - 8*10^8 8.1 He DSC_166 59 shoot through. PMMA 5cm
19 high 220.51 - 8*10^8 10.1 He DSC_167 59 shoot through. PMMA 5cm
20 high 221.06 - 3.2*10^9 8.1 p DSC_168 59 shoot through. PMMA 5 cm. exposure 0.2
21 high 221.06 - 3.2*10^9 11.1 p DSC_169 59 shoot through. PMMA 5cm
22 high 221.06 - 3.2*10^9 20 p DSC_170 59 shoot through. PMMA 5cm
23 high 430.1 - 8*10^7 3.4 C DSC_172 0 shoot through. no absorber. exposure 0.1
24 high 430.1 - 8*10^7 7.8 C DSC_173 0 shoot through. no absorber
25 high 430.1 - 8*10^7 20 C DSC_175 0 shoot through. no absorber. exposure 0.2 sec
  • the case has been ROTATED around. We now shoot on the FRONT window
Run number Full Well Mode Beam Energy (MeV/u) Range (estimated) N particles Spot size (mm) ion type DSLR file name Degrader WET (mm) Comments Thumbnail
N well mode Energy MeV/u Range particles Spot FWHM test dslr file name DSC_ comments
26 high 60.9 - 6*10^8 26.3 p DSC_176 0 front window Intensity check. exposure 0.5 sec
27 high 60.8 - 2*10^8 15.4 He DSC_178 0 front window Intensity check. exposure 0.5 sec
28 high 110.6 - 2*10^7 8.4 C DSC_180 0 front window Intensity check. exposure 0.5 sec
29 high 430.1 - 8*10^7 3.4 C DSC_181 0 front window shoot through. no absorber. exposure 0.2 sec
none - - - - - - - 0 Calibration : shoot through. no degrader
30 high 430.1 - 8*10^7 7.8 C DSC_182 0 shoot through. no absorber
31 high 430.1 - 8*10^7 20 C DSC_183 0 shoot through. no absorber.
32 high 221.06 - 3.2*10^9 20.0 p DSC_184 0 shoot through no degrader.
33 high 221.06 - 3.2*10^9 11.1 p DSC_185 0 shoot through no degrader.
34 high 221.06 - 3.2*10^9 8.1 p DSC_186 0 shoot through no degrader.
35 high 220.51 - 8*10^8 4.9 He DSC_187 0 shoot through no degrader. exposure 0.1 sec
36 high 220.51 - 8*10^8 8.1 He DSC_188 0 shoot through no degrader.
37 high 220.51 - 8*10^8 10.1 He DSC_190 0 shoot through no degrader.
38 high 220.51 - 8*10^8 4.9 He DSC_191 59 shoot through 5cm PMMA. exposure 0.1 sec
39 high 220.51 - 8*10^8 8.1 He DSC_192 59 shoot through 5cm PMMA.
40 high 220.51 - 8*10^8 10.1 He DSC_193 59 shoot through 5cm PMMA.
41 high 430.1 - 8*10^7 3.4 C DSC_194 59 front window shoot through. 5cm PMMA. exposure 0.2 sec
42 high 430.1 - 8*10^7 7.8 C DSC_195 59 shoot through. 5cm PMMA
43 high 430.1 - 8*10^7 20 C DSC_196 59 shoot through. 5cm PMMA.
44 high 221.06 - 3.2*10^9 8.1 p DSC_197 59 shoot through 5cm PMMA. exposure 0.2 sec
45 high 221.06 - 3.2*10^9 11.1 p DSC_198 59 shoot through 5cm PMMA.
46 high 221.06 - 3.2*10^9 20.0 p DSC_199 59 shoot through 5cm PMMA.
none - - - - - - - 0 Test Focus
47 high 120.1 - 1.2*10^9 13.4 p DSC_201 0 about 10 cm range. exposure 0.1 sec
48 high 120.1 - 1.2*10^9 14.4 p DSC_202 0 about 10 cm range
49 high 120.1 - 1.2*10^9 15.4 p DSC_203 0 about 10 cm range
50 high 120.1 - 1.2*10^9 16.5 p DSC_204 0 about 10 cm range
51 high 120.1 - 1.2*10^9 19.2 p DSC_205 0 about 10 cm range
52 high 120.1 - 1.2*10^9 20.9 p DSC_206 0 about 10 cm range
53 high 120.42 - 3*10^8 8.1 He DSC_207 0 about 10 cm range. exposure 0.1 sec
54 high 120.4 - 3*10^8 8.9 He DSC_208 0 about 10 cm range
55 high 120.4 - 3*10^8 10.4 He DSC_209 0 about 10 cm range
56 high 120.4 - 3*10^8 12 He DSC_210 0 about 10 cm range
57 high 219.8 - 8*10^7 4.7 C DSC_211 0 about 10 cm range. exposure 0.1 sec
58 high 219.8 - 8*10^7 6.4 C DSC_212 0 about 10 cm range
59 high 219.8 - 8*10^7 8.5 C DSC_213 0 about 10 cm range
60 high 219.8 - 8*10^7 10.3 C DSC_214 0 about 10 cm range
61 high 219.8 - 8*10^7 15. C DSC_215 0 about 10 cm range
62 high 219.8 - 8*10^7 20. C DSC_216 0 about 10 cm range
none - - - - - - - - WET measurementof known absorbers
63 high 219.8 - 1.2*10^9 4.7 C DSC_217 2.46 2mm PMMA absorber. exposure 0.1 sec
64 high 120.42 - 3*10^8 8.1 He DSC_218 2.46 2mm PMMA absorber. exposure 0.1 sec
65 high 120.1 - 1.2*10^9 13.4 p DSC_219 2.46 2mm PMMA absorber. exposure 0.1 sec
66 high 120.1 - 1.2*10^9 13.4 p DSC_220 1.12 1mm PMMA absorber. exposure 0.1 sec
67 high 219.8 - 8*10^7 4.7 C DSC_222 1.12 1mm PMMA absorber. exposure 0.1 sec
68 high 120.42 - 3*10^8 8.1 He DSC_223 1.12 1mm PMMA absorber. exposure 0.1 sec
69 high 120.42 - 3*10^8 8.1 He DSC_224 5.62 5mm PMMA absorber. exposure 0.1 sec
70 high 120.1 - 1.2*10^9 13.4 p DSC_225 5.62 5mm PMMA absorber. exposure 0.1 sec
71 high 219.8 - 8*10^7 4.7 C DSC_226 5.62 5mm PMMA absorber. exposure 0.1 sec
72 high 219.8 - 8*10^7 4.7 C DSC_227 11.77 10mm PMMA absorber. exposure 0.1 sec
73 high 120.42 - 3*10^8 8.1 He DSC_228 11.77 10mm PMMA absorber. exposure 0.1 sec
74 high 120.1 - 1.2*10^9 13.4 p DSC_229 11.77 10mm PMMA absorber. exposure 0.1 sec
75 high 120.1 - 1.2*10^9 13.4 p DSC_230 22.71 20mm PMMA absorber. exposure 0.1 sec
76 high 219.8 - 8*10^7 4.7 C - 22.71 20mm PMMA absorber. DSLR discharged
77 high 120.42 - 3*10^8 8.1 He - 22.71 20mm PMMA absorber.
78 high 120.42 - 3*10^8 8.1 He - 59 50mm PMMA absorber.
79 high 120.1 - 1.2*10^9 13.4 p - 59 50mm PMMA absorber.
80 high 219.8 - 8*10^7 4.7 C - 59 50mm PMMA absorber.
none - - - - - - - - SOBP for protons: 10 cm deep 3cm plateau
81 high max 116.85 min 98.27 - 1.2*10^9 13.7 - 16 p - 0 SOBP no absorber. n. of steps in the file sent by email at 3.10 am on 13 Apr 2019. sensor: 10 pix in the center
82 high - - - - - - - background. sensor 10 px in the center
none - - - - - - - - High proton energies
83 high 221.1 - 1.2*10^9 8.1 p - 232.87 20cm (5 + 2 + 1 + 2 + 5 + 5 cm) PMMA absorber. Corresponds to (5.9 + 2.274 + 1.177 + 2.271 + 5.901 + 5.764) cm WET = 23.287 cm WET
84 high 215.3 - 1.2*10^9 8.1 p - 232.87 20cm PMMA absorber. 23.287 cm WET
85 high 210.1 - 1.2*10^9 8.1 p - 232.87 20cm PMMA absorber. 23.287 cm WET
86 high 205.5 - 1.2*10^9 8.2 p - 232.87 20cm PMMA absorber. 23.287 cm WET
87 high 200.1 - 1.2*10^9 8.4 p - 232.87 20cm PMMA absorber. 23.287 cm WET
88 high 200.1 - 1.2*10^9 8.4 p - 139.36 12cm (5 + 5 + 2 cm) PMMA absorber. 13.936 cm WET
89 high 195.3 - 1.2*10^9 8.6 p - 139.36 12cm PMMA absorber. 13.936 cm WET
90 high 190.5 - 1.2*10^9 8.0 p - 139.36 12cm PMMA absorber. 13.936 cm WET
91 high 185.5 - 1.2*10^9 9.1 p - 139.36 12cm PMMA absorber. 13.936 cm WET
92 high 180.5 - 1.2*10^9 9.4 p - 139.36 12cm PMMA absorber. 13.936 cm WET
93 high 175.3 - 1.2*10^9 9.7 p - 139.36 12cm PMMA absorber. 13.936 cm WET
94 high 170.6 - 1.2*10^9 9.9 p - 139.36 12cm PMMA absorber. 13.936 cm WET
95 high 165.4 - 1.2*10^9 10.3 p - 139.36 12cm PMMA absorber. 13.936 cm WET
96 high 160.1 - 1.2*10^9 10.6 p - 139.36 12cm PMMA absorber. 13.936 cm WET
97 high 155.3 - 1.2*10^9 10.9 p - 139.36 12cm PMMA absorber. 13.936 cm WET
98 high 155.3 - 1.2*10^9 10.9 p - 57.64 5cm PMMA absorber. 5.764 cm WET
99 high 150.4 - 1.2*10^9 11.2 p - 57.64 5cm PMMA absorber. 5.764 cm WET
100 high 145.5 - 1.2*10^9 11.5 p - 57.64 5cm PMMA absorber. 5.764 cm WET
101 high 140.4 - 1.2*10^9 11.8 p - 57.64 5cm PMMA absorber. 5.764 cm WET
102 high 135.2 - 1.2*10^9 12.2 p - 57.64 5cm PMMA absorber. 5.764 cm WET
103 high 130.5 - 1.2*10^9 12.5 p - 57.64 5cm PMMA absorber. 5.764 cm WET
104 high 125.1 - 1.2*10^9 12.9 p - 57.64 5cm PMMA absorber. 5.764 cm WET
105 high 120.1 - 1.2*10^9 13.4 p - 57.64 5cm PMMA absorber. 5.764 cm WET
106 high 115.6 - 1.2*10^9 13.8 p - 57.64 5cm PMMA absorber. 5.764 cm WET
107 high 110.2 - 1.2*10^9 14.4 p - 57.64 5cm PMMA absorber. 5.764 cm WET
108 high 105.4 - 1.2*10^9 15. p - 57.64 5cm PMMA absorber. 5.764 cm WET.
109 high 105.4 - 1.2*10^9 15. p - 0 no absorber.
110 high 95.3 - 1.2*10^9 16.5 p - 0 no absorber.
111 high 90.7 - 1.2*10^9 17.4 p - 0 no absorber.
112 high 90.7 - 1.2*10^9 17.4 p - 0 no absorber. copy of 111
113 high 80.04 - 1.2*10^9 19.8 p - 0 no absorber.
114 high 48.1 - 1.2*10^9 32.4 p - 0 no absorber.
115 high 48.1 - 1.2*10^9 32.4 p - 0 no absorber. copy of 114
  • OXYGEN
Run number Full Well Mode Beam Energy (MeV/u) Range (estimated) N particles Spot size (mm) ion type DSLR file name Degrader WET (mm) Comments Thumbnail
N well mode Energy MeV/u Range particles Spot FWHM test dslr file name DSC_ degrader WET comments -
116 high 231.4 - 4.*10^7 4.3 O - 59 Intensity test 5cm absorber (absorber n 3)
117 low 231.4 - 4.*10^7 4.3 O - 59 Intensity test 5cm absorber (absorber n 3)
118 low 231.4 - 1.5*10^7 4.3 O - 59 Intensity test 5cm absorber (absorber n 3)
119 low 231.4 - 2.5*10^7 4.3 O - 59 Intensity test 5cm absorber(absorber n 3)
120 low 430.32 - 2.5*10^7 2.7 O - 59 shoot-through with 5cm absorber (absorber n 3)
121 low 430.32 - 2.5*10^7 2.7 O - 0 shoot-through no absorber
122 low 261.1 - 2.5*10^7 3.9 O - 0 range calibration no absorber
123 low 245.7 - 2.5*10^7 4.1 O - 0 range calibration no absorber
124 low 231.4 - 1.5*10^7 4.3 O - 0 range calibration no absorber
125 low 214.7 - 1.5*10^7 4.5 O - 0 range calibration no absorber
126 low 200.9 - 2.5*10^7 4.8 O - 0 range calibration no absorber
127 low 200.9 - 1.5*10^7 4.8 O - 0 range calibration no absorber
128 low 184.5 - 1.5*10^7 5.2 O - 0 range calibration no absorber
129 low 169 - 1.5*10^7 5.6 O - 0 range calibration no absorber
130 low 150.2 - 1.5*10^7 6.3 O - 0 range calibration no absorber
131 low 124.7 - 1.5*10^7 7.5 O - 0 range calibration no absorber
132 low 103.8 - 1.5*10^7 8.8 O - 0 range calibration no absorber
133 low 233 - 1.5*10^7 4.3 O - 0 range calibration no absorber
134 low 234.62 - 1.5*10^7 4.2 O - 0 range calibration no absorber
135 low 236.24 - 1.5*10^7 4.2 O - 0 range calibration no absorber
136 low 237.83 - 1.5*10^7 4.2 O - 0 range calibration no absorber
137 low 239.42 - 1.5*10^7 4.2 O - 0 range calibration no absorber
138 low 241 - 1.5*10^7 4.2 O - 0 range calibration no absorber
139 low 242.58 - 1.5*10^7 4.1 O - 0 range calibration no absorber
140 low 244.15 - 1.5*10^7 4.1 O - 0 range calibration no absorber
141 low 245.71 - 1.5*10^7 4.1 O - 0 range calibration no absorber
142 low 247.26 - 1.5*10^7 4.1 O - 0 range calibration no absorber
143 low 248.83 - 1.5*10^7 4.1 O - 0 range calibration no absorber
144 low 252.0 - 1.5*10^7 4.0 O - 0 range calibration no absorber
145 low 253.54 - 1.5*10^7 4.0 O - 0 range calibration no absorber
146 low - - - - - - - background



13–14th April

  • the detector has been Disassembled and assembled in the afternoon
  • full sensor area
  • shooting on BACK WINDOW
  • images from sensor: User/Public/Document/EPIX/XCAP/data/20190413
  • finding the best beam intensity
  • Simon checking the intensity on pixels from dslr with nikon software
  • camera settings
    • exposure 1/10 sec (can change during runs)
    • aperture f/3
    • ISO 200
Run number Full Well Mode Beam Energy (MeV/u) Range (estimated) N particles Spot size (mm) ion type DSLR file name Degrader WET (mm) Comments Thumbnail
N well mode Energy MeV/u Range particles Spot FWHM type dslr file name DSC_ degrader WET comments
00 low None - None None - DSC_231 - background
01 high None - None None - - - background
none - - - - - - - - Shoot-through calibration
02 high 220.51 - 8x10^8 4.9 He DSC_232 59 shoot through 5cm PMMA. exposure 0.1 sec
03 high 430.1 - 8x10^7 3.4 C DSC_233 59 shoot through 5cm PMMA. exposure 0.1 sec
04 low 430.1 - 8x10^7 3.4 C DSC_234 movie 59 shoot through 5cm PMMA. exposure 1/80 sec ISO 1600
05 low 430.1 - 3x10^7 3.4 C DSC_235 59 shoot through 5cm PMMA. exposure 0.2 sec ISO 200
06 low 220.51 - 3x10^8 4.9 He DSC_236 59 shoot through 5cm PMMA. exposure 0.2 sec


  • shooting on FRONT WINDOW
  • camera OFF
Run number Full Well Mode Beam Energy (MeV/u) Range (estimated) N particles Spot size (mm) ion type DSLR file name Degrader WET (mm) Comments Thumbnail
N well mode Energy MeV/u Range particles Spot FWHM type dslr file name DSC_ degrader WET comments
07 low None - None None - OFF - background
08 high None - None None - - - background
none - - - - - - - - Shoot-through calibration
09 high 220.51 - 8x10^8 4.9 He - 59 shoot through 5cm PMMA.
10 high 430.1 - 8x10^7 3.4 C - 59 shoot through 5cm PMMA.
11 low 430.1 - 3x10^7 3.4 C - 59 shoot through 5cm PMMA.
12 low 220.51 - 3x10^8 4.9 He - 59 shoot through 5cm PMMA.
none - - - - - - - - Carbon and Helium SOBP and single energy pencil beam
13 low None - None None - - - background 6 pix in the centre
14 high None - None None - - - background 6 pix in the centre
15 high max 210 min 172 - 8*10^7 9.1 - 10.4 C - 0 SOBP no absorber. sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml 3mm Ripple filter always IN for SOBP
16 high approx max 210 min 172 - 8*10^8 10.2 - 8.7 He - 0 SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml Problem with the total dose a factor 10 higher than C.3mm Ripple filter always IN for SOBP
17 high approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 0 SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml. Too long but saved. Problem with the total dose a factor 10 higher than C. 3mm Ripple filter always IN for SOBP
18 high approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 0 SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml NEW FILE *_2Gy respect to the previous. 3mm Ripple filter always IN for SOBP
19 high 220.51 - 8x10^7 4.9 He - 0 pencil beam. no absorber. full sensor
20 low 220.51 - 8x10^7 4.9 He - 0 pencil beam. no absorber. full sensor
21 low 219.8 - 8x10^7 4.7 C - 0 pencil beam. no absorber. full sensor. Image saturated!
22 high 219.8 - 8x10^7 4.7 C - 0 pencil beam. no absorber. full sensor
23 low approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 0 SOBP no absorber. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
24 low approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 221.15 SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
25 low max 210 min 172 - 8*10^7 9.1 - 10.4 C - 221.15 SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
26 high max 210 min 172 - 8*10^7 9.1 - 10.4 C - 221.15 SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
27 high approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 221.15 SOBP 19 cm PMMA (5+5+5+2+2 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
28 high 219.8 - 8x10^7 4.7 C - 221.15 pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor
29 high 220.51 - 8x10^7 4.9 He - 221.15 pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor
30 low 220.51 - 8x10^7 4.9 He - 221.15 pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor
31 low 219.8 - 8x10^7 4.7 C - 221.15 pencil beam. 19 cm PMMA (5+5+5+2+2 cm). full sensor
32 low approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 175.65 SOBP 15 cm PMMA (5+5+5 cm). Removed 2+2 cm PMMA: WET1= 2.271 + WET2 = 2.279 sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
33 low max 210 min 172 - 8*10^7 9.1 - 10.4 C - 175.65 SOBP 15 cm PMMA (5+5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
34 high max 210 min 172 - 8*10^7 9.1 - 10.4 C - 175.65 SOBP 15 cm PMMA (5+5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
35 high approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 175.65 SOBP 15 cm PMMA (5+5+5 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
36 high 219.8 - 8x10^7 4.7 C - 175.65 pencil beam. 15 cm PMMA (5+5+5 cm). full sensor
37 high 220.51 - 8x10^7 4.9 He - 175.65 pencil beam. 15 cm PMMA (5+5+5 cm). full sensor
38 low 220.51 - 8x10^7 4.9 He - 175.65 pencil beam. 15 cm PMMA (5+5+5 cm). full sensor
39 low 219.8 - 8x10^7 4.7 C - 175.65 pencil beam. 15 cm PMMA (5+5+5 cm). full sensor
40 low approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 118.01 SOBP 10 cm PMMA (5+5 cm). Removed 5cm PMMA WET= 5.764 cm sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
41 low max 210 min 172 - 8*10^7 9.1 - 10.4 C - 118.01 SOBP 10 cm PMMA (5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
42 high max 210 min 172 - 8*10^7 9.1 - 10.4 C - 118.01 SOBP 10 cm PMMA (5+5 cm). sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
43 high approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 118.01 SOBP 10 cm PMMA (5+5 cm). sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
44 high 219.8 - 8x10^7 4.7 C - 118.01 pencil beam. 10 cm PMMA (5+5 cm). full sensor
45 high 220.51 - 8x10^7 4.9 He - 118.01 pencil beam. 10 cm PMMA (5+5 cm). full sensor
46 low 220.51 - 8x10^7 4.9 He - 118.01 pencil beam. 10 cm PMMA (5+5 cm). full sensor
47 low 219.8 - 8x10^7 4.7 C - 118.01 pencil beam. 10 cm PMMA (5+5 cm). full sensor
48 low approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 59 SOBP 5 cm PMMA (WET = 5.9 cm). Removed 5cm PMMA WET = 5.901 cm. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennar/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
49 low max 210 min 172 - 8*10^7 9.1 - 10.4 C - 59 SOBP 5 cm PMMA. sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
50 high max 210 min 172 - 8*10^7 9.1 - 10.4 C - 59 SOBP 5 cm PMMA. sensor: 6 pix in the center. 16 energy layers. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/sobp_30x30x30/12C/ucl-sobp_c-2Gy_30x30x30mm3-75mm.xml
51 high approx max 210 min 172 - 8*10^7 10.2 - 8.7 He - 59 SOBP 5 cm PMMA. sensor: 6 pix in the center. C/Workplaces/HIT-Exp/Seco/Lennart/20190412/he-contamination_ucl-sobp_c-2Gy_30x30x30mm3-75mm_2Gy.xml
52 high 219.8 - 8x10^7 4.7 C - 59 pencil beam. 5 cm PMMA. full sensor
53 high 220.51 - 8x10^7 4.9 He - 59 pencil beam. 5 cm PMMA. full sensor
54 low 220.51 - 8x10^7 4.9 He - 59 pencil beam. 5 cm PMMA. full sensor
55 low 219.8 - 8x10^7 4.7 C - 59 pencil beam. 5 cm PMMA. full sensor. Image saturated!
56 low None - None None - OFF - background
none - - - - - - - - Variable air gap measurements
57 low 219.8 - 8x10^7 8.5 C - 238.36 pencil beam. 5cm PMMA upstream, pair 1mm x 0mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm +2cm + 5cm +5cm PMMA. full sensor
58 low 220.51 - 8x10^7 8.1 He - 238.36 pencil beam. 5cm PMMA upstream, pair 1mm x 0mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm +2cm + 5cm +5cm PMMA. full sensor
59 low 220.51 - 8x10^7 8.1 He - 215.57 Removed material to move peak towards end of scintillator stack compared to run 58. pencil beam. 5cm PMMA (WET 5.364 cm) upstream, pair 1mm (WET 0.112 cm) x 0mm air gap width. + sheets 2mm (WET 0.25 cm ) + 5mm (WET 0.582 cm) + 1 cm (WET 1.177 cm) +2cm (WET 2.271 cm) + 5cm (WET 5.901 cm) +5cm PMMA (WET 5.9 cm). full sensor
60 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 0mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
61 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 2mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
62 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 2mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
63 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 5mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
64 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 5mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
65 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 10mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
66 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 1mm x 10mm air gap width. + sheets 2mm + 5mm + 1 cm +2cm + 5cm +5cm PMMA. full sensor
67 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 0mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
68 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 0mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
69 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
70 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor. System interlock. Don't use it.
71 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
72 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
73 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 2mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
74 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 0mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
75 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 0mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
76 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
77 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
78 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
79 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 5mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
80 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
81 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
82 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
83 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 2mm x 10mm air gap width. + sheets 5mm + 1 cm +2cm + 1mm + 5cm +5cm PMMA. full sensor
84 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
85 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
86 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
87 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 0mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
88 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
89 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
90 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
91 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 2mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
92 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
93 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
94 low 219.8 - 8x10^7 10.3 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
95 low 219.8 - 8x10^7 6.4 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
96 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
97 low 220.51 - 8x10^7 10.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
98 low 220.51 - 8x10^7 6.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
99 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 5mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
100 low 220.51 - 8x10^7 8.1 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
101 low 219.8 - 8x10^7 8.5 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
102 low 219.8 - 8x10^7 4.7 C - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
103 low 220.51 - 8x10^7 4.9 He - 215.57 pencil beam. 5cm PMMA upstream, pair 5mm x 10mm air gap width. + sheets 1 cm +2cm + 1mm + 2mm + 5cm +5cm PMMA. full sensor
104 low 220.51 - 8x10^7 8.1 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm (left beam view: 1.07 cm - WET 1.177 ) - (right: 0.97 cm + 0.1 cm - WET 1.124 cm + 0.114 ) x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
105 low 219.8 - 8x10^7 8.5 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
106 low 219.8 - 8x10^7 4.7 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
107 low 220.51 - 8x10^7 4.9 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 0mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
108 low 220.51 - 8x10^7 8.1 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
109 low 219.8 - 8x10^7 8.5 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
110 low 219.8 - 8x10^7 4.7 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
111 low 220.51 - 8x10^7 4.9 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 2mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
112 low 220.51 - 8x10^7 8.1 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
113 low 219.8 - 8x10^7 8.5 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
114 low 219.8 - 8x10^7 4.7 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
115 low 220.51 - 8x10^7 4.9 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 5mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
116 low 220.51 - 8x10^7 8.1 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
117 low 219.8 - 8x10^7 8.5 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
118 low 219.8 - 8x10^7 4.7 C - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
119 low 220.51 - 8x10^7 4.9 He - 215.875 pencil beam. 5cm PMMA upstream, pair 10mm x 10mm air gap width. + sheets +2cm + 1mm + 2mm + 5mm + 5cm +5cm PMMA. full sensor
120 low None - None None - OFF - background. full sensor
none - - - - - - - - 5mm air gap downstream of carbon Bragg peak
121 low 220.51 - 8x10^7 8.1 He - 215.50 pencil beam. 5cm PMMA (WET 5.364 cm) + 1 cm (WET 1.177 cm) + 1mm (WET 0.112 cm)+ 2mm (WET 0.25 cm ) + 5cm (WET 5.901 cm) +5cm PMMA (WET 5.9 cm) + 5mm pair (WET 0.582 and 0.562) 5mm air gap +2cm (WET 2.274 cm). full sensor
122 low 219.8 - 8x10^7 8.5 C - 215.50 pencil beam. 5cm PMMA + 1 cm + 1mm + 2mm + 5cm +5cm PMMA + 5mm pair with 5mm air gap +2cm . full sensor
123 low 219.8 - 8x10^7 4.7 C - 215.50 pencil beam. 5cm PMMA + 1 cm + 1mm + 2mm + 5cm +5cm PMMA + 5mm pair with 5mm air gap +2cm. full sensor
124 low 220.51 - 8x10^7 4.9 He - 215.50 pencil beam. 5cm PMMA + 1 cm + 1mm + 2mm + 5cm +5cm PMMA + 5mm pair with 5mm air gap +2cm. full sensor
none - - - - - - - - Half covered 2mm air gap
125 low None - None None - OFF - background. sensor readout 100 px. wrong horizontal offset in XCAP software
126 low 210 - 8x10^7 10.2 He _238 movie 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA (WET 5.364 cm) + 2mm (full in) + 1 cm (WET 1.177 cm) + 1mm + 5cm (WET 5.901 cm) +5cm PMMA (WET 5.9 cm) + 5mm (WET 0.583 cm 0.562) +2cm (WET 2.274 cm). full sensor wrong horizontal offset in XCAP software. setting 25 frames/sec. shutter speed 1/25 sec aperfure f/3 ISO 2000
127 low 210 - 8x10^7 10.2 C - 215.50 SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm . full sensor. setting 25 frames/sec wrong horizontal offset in XCAP software.
128 low 210 - 8x10^7 10.2 C 239 215.50 SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm . full sensor. offset adjusted. setting 25 frames/sec.
129 low 210 - 8x10^7 10.2 He - 215.50 SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm . full sensor. offset adjusted. setting 25 frames/sec.
130 low None - None None - - - background. sensor readout 100 px. offset adjusted
131 low 210 - 8x10^7 10.2 He _240 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (8mm further in than half inserted from the left. air gap on the right) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm.
132 low 210 - 8x10^7 10.2 C _242 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (8mm further in than half inserted from the left. air gap on the right) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm.
133 low 210 - 8x10^7 10.2 C _243 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (half inserted.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 2000
134 low 210 - 8x10^7 10.2 He _244 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (half inserted.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 2000
none low 210 - 8x10^7 10.2 He _245 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (half inserted.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 8000
none low 210 - 8x10^7 10.2 C _247 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (half inserted.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 8000
135 low 210 - 8x10^7 10.2 C _248 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (8mm pulled out.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 8000
136 low 210 - 8x10^7 10.2 He _249 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm (8mm pulled out.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 8000
137 low 210 - 8x10^7 10.2 He _250 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm gap (pulled out.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 8000
138 low 210 - 8x10^7 10.2 C _251 215.50 transverse scan SOBP 1 layer energy. 3cmx3cm, 100 spots. 5cm PMMA + 2mm gap (pulled out.) + 1 cm + 1mm + 5cm +5cm PMMA + 5mm +2cm. ISO 8000
none - - - - - - - - Moving Platform
139 low 210 - 8x10^7 10.2 He _253 215.50 moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm (WET 5.364 cm); 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200
140 low 210 - 8x10^7 10.2 He _254 215.50 moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200
141 low 210 - 8x10^7 10.2 He _255 215.50 moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200. Moving platform video run01 on Raffy's phone
142 low 210 - 8x10^7 10.2 He _256 215.50 moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200. Moving platform video run02 on Raffy's phone
143 low 210 - 8x10^7 10.2 He _257 215.50 moving platform. SOBP 10x1 spot array (3cm wide). upstream PMMA absorber 5cm; 5mm air gap; downstream PMMA absorber 13.3cm. ISO 3200 moving platform Simon video
none - - - - - - - - Moving 2mm air gap oval shape
144 low 210 - 8x10^7 10.2 He _258 215.155 SOBP 10x10 single layer. upstream PMMA absorber 5cm (WET 5.364 cm); 2mm air gap oval shape 3cm w x 1cm h centered with the beam. Composed of 1x2mm thick sheet (WET 0.219mm) and 2x1mm thick sheets (WET 0.115cm and 0.115cm); downstream PMMA absorber 13.6cm PMMA (WET 15.936cm). ISO 3200
145 low 210 - 8x10^7 10.2 He _259 215.155 SOBP 10x10 single layer. upstream PMMA absorber 5cm; 2mm (1mm + 1mm) air gap oval shape 3cm w x 1cm h; downstream PMMA absorber 13.6cm PMMA. ISO 8000
146 low 210 - 8x10^7 10.2 C _260 215.155 SOBP 10x10 single layer. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h; downstream PMMA absorber 13.6 cm PMMA.
147 low 220.5 - 8x10^7 8.1 He 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h centered with the beam; downstream PMMA absorber 13.6 cm PMMA.
148 low 220.5 - 8x10^7 8.1 He 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 1.5 cm shifted to the right from beam eye view. gap edge in the midle of the beam; downstream PMMA absorber 13.6 cm PMMA.
149 low 219.8 - 8x10^7 8.5 C 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 1.5 cm shifted to the right drom beam eye view. gap edge in the midle of the beam; downstream PMMA absorber 13.6 cm PMMA.
150 low 219.8 - 8x10^7 8.5 C 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 3cm shifted to the right. downstream PMMA absorber 13.6 cm PMMA.
151 low 220.5 - 8x10^7 8.1 He 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 3 cm shifted to the right from beam eye view. downstream PMMA absorber 13.6 cm PMMA.
152 low 219.8 - 8x10^7 8.5 C 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h centered. downstream PMMA absorber 13.6 cm PMMA.
153 low 219.8 - 8x10^7 8.5 C 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 1.5 cm cm shifted to the left for . downstream PMMA absorber 13.6 cm PMMA.
154 low 220.5 - 8x10^7 8.1 He 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 1.5 cm shifted to the left from beam eye view. downstream PMMA absorber 13.6 cm PMMA.
155 low 220.5 - 8x10^7 8.1 He 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 3 cm shifted to the left from beam eye view. downstream PMMA absorber 13.6 cm PMMA.
156 low 219.8 - 8x10^7 8.5 C 215.155 pencil beam. upstream PMMA absorber 5cm; 2mm air gap oval shape 3cm w x 1cm h 3 cm cm shifted to the left for . downstream PMMA absorber 13.6 cm PMMA.



14–15th April

  • full sensor area
  • shooting on FRONT WINDOW
  • images from sensor: User/Public/Document/EPIX/XCAP/data/20190414 ?
Run number Full Well Mode Beam Energy (MeV/u) Range (estimated) N particles Spot size (mm) ion type DSLR file name Degrader WET (mm) Comments Thumbnail
N well mode Energy MeV/u Range particles Spot FWHM type dslr file name DSC_ degrader WET
00 low None - None None - OFF - background
01 high None - None None - - - background
none - - - - - - - - Shoot-through calibration
02 high 220.51 - 8x10^8 4.9 He - 59 shoot through 5cm PMMA.
03 high 430.1 - 8x10^7 3.4 C - 59 shoot through 5cm PMMA.
04 low 430.1 - 8x10^7 3.4 C - 59 shoot through 5cm PMMA.
05 low 220.51 - 8x10^8 4.9 He - 59 shoot through 5cm PMMA.
06 low 220.51 - 3x10^8 4.9 He - 59 shoot through 5cm PMMA.
none - - - - - - - - Lung phantom
07 low 180.29 - 8x10^7 8.5 He - 0 +20mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
08 low 180.89 - 8x10^7 9 C - 0 +20mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
09 low 180.89 - 8x10^7 9 C - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
10 low 180.29 - 8x10^7 8.5 He - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
11 low 180.29 - 8x10^7 8.5 He - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
12 low 180.89 - 8x10^7 9 C - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
13 low 180.89 - 8x10^7 9 C - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
14 low 180.29 - 8x10^7 8.5 He - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
15 low 180.29 - 8x10^7 8.5 He - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
16 low 180.89 - 8x10^7 9 C - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
17 low 180.89 - 8x10^7 5.5 C - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
18 low 180.29 - 8x10^7 5.5 He - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
19 low 180.29 - 8x10^7 5.5 He - 0 -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
20 low 180.89 - 8x10^7 5.5 C - 0 -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
21 low 180.89 - 8x10^7 9 C - 0 -5mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm
22 low 180.29 - 8x10^7 8.5 He - 0 -5mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm
23 low 180.29 - 8x10^7 8.5 He - 0 -10mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm
24 low 180.89 - 8x10^7 9 C - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
25 low 180.89 - 8x10^7 5.5 C - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
26 low 180.29 - 8x10^7 5.5 He - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
27 low 180.29 - 8x10^7 5.5 He - 0 -15mm below tumor isocenter. Detector window distance from tumour isocenter = 28cm
28 low 180.89 - 8x10^7 5.5 C - 0 -15mm below tumour isocenter. Detector window distance from tumor isocenter = 28cm
29 low 180.89 - 8x10^7 9 C - 0 -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
30 low 180.29 - 8x10^7 8.5 He - 0 -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
31 low 160.7 - 8x10^7 9 He - 0 -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
32 low 160 - 8x10^7 9.4 C - 0 -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
33 low 160 - 8x10^7 6.2 C - 0 -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
34 low 160.7 - 8x10^7 6.2 He - 0 -15mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
35 low 160.7 - 8x10^7 6.2 He - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
36 low 160.7 - 8x10^7 9 He - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
37 low 160 - 8x10^7 6.2 C - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
38 low 160 - 8x10^7 9.4 C - 0 -10mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
39 low 160 - 8x10^7 9.4 C - 0 -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
40 low 160 - 8x10^7 6.2 C - 0 -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
41 low 160.7 - 8x10^7 6.2 He - 0 -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
42 low 160.7 - 8x10^7 9 He - 0 -5mm below tumour isocenter. Detector window distance from tumour isocenter = 28cm
43 low 160.7 - 8x10^7 9 He - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
44 low 160.7 - 8x10^7 6.2 He - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
45 low 160 - 8x10^7 6.2 C - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
46 low 160 - 8x10^7 9.4 C - 0 tumour isocenter. Detector window distance from tumour isocenter = 28cm
47 low 160 - 8x10^7 9.4 C - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
48 low 160 - 8x10^7 6.2 C - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
49 low 180.89 - 8x10^7 5.5 C - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
50 low 160.7 - 8x10^7 6.2 He - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
51 low 160.7 - 8x10^7 9 He - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
52 low 180.29 - 8x10^7 5.5 He - 0 +5mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
53 low 180.29 - 8x10^7 5.5 He - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
54 low 160.7 - 8x10^7 6.2 He - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
55 low 160.7 - 8x10^7 9 He - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
56 low 160 - 8x10^7 6.2 C - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
57 low 160 - 8x10^7 9.4 C - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
58 low 180.89 - 8x10^7 5.5 C - 0 +10mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
59 low 180.89 - 8x10^7 5.5 C - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
60 low 160 - 8x10^7 6.2 C - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
61 low 160 - 8x10^7 9.4 C - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
62 low 160.7 - 8x10^7 6.2 He - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
63 low 160.7 - 8x10^7 9 He - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
64 low 180.29 - 8x10^7 5.5 He - 0 +15mm above tumour isocenter. Detector window distance from tumour isocenter = 28cm
none - - - - - - - - high energy Bragg peak
65 low 324.26 - 7x10^8 7 He - 517.33 45cm PMMA (from the detector upstream WET 57.85mm + 57.81mm + 57.97mm + 59.0mm + 59.01mm + 57.64mm + 22.71mm + 22.74mm + 11.24mm + 11.77mm + 10.68mm + 11.25mm + 11.26mm + 10.95mm + 10.92mm + 11.00mm + 10.77mm + 11.95mm + 10.81mm). 50 cm WET approx. check mail simon Sheet stack 14/4/2019 32.10
66 high 324.26 - 7x10^8 7 He - 517.33 45cm PMMA. 50 cm WET approx
67 high 324.26 - 7x10^7 3.8 C - 517.33 45cm PMMA. 50 cm WET approx
68 low 324.26 - 7x10^7 3.8 C - 517.33 45cm PMMA. 50 cm WET approx
69 low 324.26 - 7x10^8 7 He - 448.87 39cm PMMA (from the detector upstream WET 57.85mm + 57.81mm + Unlabelled (approx. 57.8mm; 50mm physical) + 59.0mm + 59.01mm + 57.64mm + 9 x 10mm approx.).
70 high 324.26 - 7x10^8 7 He - 448.87 39cm PMMA.
71 high 324.26 - 7x10^7 3.8 C - 448.87 39cm PMMA.
72 low 324.26 - 8x10^7 3.8 C - 448.87 39cm PMMA. Carbon intensity uncertainty up to 6%
73 high 324.26 - 8x10^7 3.8 C - 448.87 39cm PMMA.
74 high 324.26 - 8x10^7 3.8 C - 517.33 45cm PMMA (from the detector upstream WET 57.85mm + 57.81mm + Unlabelled (approx. 57.8mm; 50mm physical) + 59.0mm + 59.01mm + 57.64mm + 22.71mm + 22.74mm + 11.24mm + 11.77mm + 9 x 10mm approx. ). 50 cm WET approx
75 low 324.26 - 8x10^7 3.8 C - 517.33 45cm PMMA. 50 cm WET
76 low 324.26 - 8x10^7 3.8 C - 349.28 30cm PMMA (from the detector upstream WET 57.85mm + 57.81mm + Unlabelled (approx. 57.8mm; 50mm physical) + 59.0mm + 59.01mm + 57.64mm. ).
77 low 324.26 - 8x10^7 8 C - 349.28 30cm PMMA.
78 high 324.26 - 8x10^7 8 C - 349.28 30cm PMMA.
79 high 324.26 - 7x10^8 7 He - 349.28 30cm PMMA.
80 low 324.26 - 7x10^8 7 He - 349.28 30cm PMMA.
81 low 324.26 - 7x10^8 7 He - 233.5 20cm PMMA (from the detector upstream WET 57.85mm (big block) + 59.0mm + 59.01mm + 57.64mm. ).
82 high 324.26 - 7x10^8 7 He - 233.5 20cm PMMA
83 high 324.26 - 8x10^7 8 C - 233.5 20cm PMMA.
84 low 324.26 - 8x10^7 8 C - 233.5 20cm PMMA.
85 low 324.26 - 8x10^7 8 C - 118.01 10cm PMMA (from the detector upstream WET 59.0mm + 59.01mm ).
86 high 324.26 - 8x10^7 8 C - 118.01 10cm PMMA
87 high 324.26 - 7x10^8 7 He - 118.01 10cm PMMA
88 low 324.26 - 7x10^8 7 He - 118.01 10cm PMMA
89 low 324.26 - 7x10^8 7 He - 59.0 5cm PMMA (from the detector upstream WET 59.0mm).
90 high 324.26 - 7x10^8 7 He - 59.0 5cm PMMA
91 high 324.26 - 8x10^7 8 C - 59.0 5cm PMMA
92 low 324.26 - 8x10^7 8 C - 59.0 5cm PMMA
93 low 324.26 - 8x10^7 8 C - 0 no absorber.
94 high 324.26 - 8x10^7 8 C - 0 no absorber.
95 high 324.26 - 7x10^8 7 He - 0 no absorber.
96 low 324.26 - 7x10^8 7 He - 0 no absorber.
none - - - - - - - - ADAM PETer phantom measurements
97 low 324.26 - 7x10^8 7 He - 194.39 + ??? phantom in upright position. alignment with tumour isocenter. alignment with isocenter vertical axis (no rotation). 2cm PMMA degrader in front of beam (WET ). 19cm PMMA downstream (WET ?)
98 high 324.26 - 7x10^8 7 He - 194.39 phantom in upright position. alignment with tumour isocenter. alignment with isocenter vertical axis (no rotation). 2cm PMMA degrader in front of beam (WET 2.274). 15cm PMMA downstream (WET 5.364 + 5.901 + 5.9)
99 high 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
100 low 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
101 low 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
102 low 324.26 - 8x10^7 8 C - 194.39 -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
103 high 324.26 - 8x10^7 8 C - 194.39 -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
104 high 324.26 - 7x10^8 7 He - 194.39 -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
105 low 324.26 - 7x10^8 7 He - 194.39 -1cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
106 low 324.26 - 7x10^8 7 He - 194.39 -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
107 high 324.26 - 7x10^8 7 He - 194.39 -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
108 high 324.26 - 8x10^7 8 C - 194.39 -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
109 low 324.26 - 8x10^7 8 C - 194.39 -0.5cm below tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
110 low 324.26 - 8x10^7 8 C - 194.39 +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
111 high 324.26 - 8x10^7 8 C - 194.39 +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
112 high 324.26 - 7x10^8 7 He - 194.39 +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
113 low 324.26 - 7x10^8 7 He - 194.39 +0.5cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
114 low 324.26 - 7x10^8 7 He - 194.39 +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
115 high 324.26 - 7x10^8 7 He - 194.39 +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
116 high 324.26 - 8x10^7 8 C - 194.39 +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
117 low 324.26 - 8x10^7 8 C - 194.39 +1cm above tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
118 low 324.26 - 8x10^7 8 C - 194.39 tumour isocenter approx (tumour just below the isocenter.). (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
119 high 324.26 - 8x10^7 8 C - 194.39 tumour isocenter approx (tumour just below the isocenter.). (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
120 high 324.26 - 7x10^8 7 He - 194.39 tumour isocenter approx (tumour just below the isocenter.). (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream
none low 324.26 - 7x10^8 7 He - 194.39 No measurement taken. Sensor had to be restarted. expected to be saturated. tumour isocenter. (no rotation). 2cm PMMA degrader in front of beam. 15cm PMMA downstream.
121 high 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. +2 degree rotation anticlockwise from beam eye. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
122 low 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. +2 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
123 low 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. +2 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
124 high 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. +2 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
125 high 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
126 low 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
127 low 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
128 high 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. no rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
129 high 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. +4 degree rotation anticlockwise. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
130 low 324.26 - 7x10^8 7 He - 194.39 tumour isocenter. +4 degree rotation anticlockwise. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
131 low 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. +4 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
132 high 324.26 - 8x10^7 8 C - 194.39 tumor isocenter. +4 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
133 high 324.26 - 8x10^7 8 C - 194.39 tumour isocenter. +10 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
134 low 324.26 - 8x10^7 8 C - 194.39 tumor isocenter. +10 degree rotation. 2cm PMMA degrader in front of beam. 15cm PMMA downstream
135 low 324.26 - 7x10^8 7 He - 194.39 tumor isocenter. +10 degree rotation . 2cm PMMA degrader in front of beam. 15cm PMMA downstream
136 high 324.26 - 7x10^8 7 He - 194.39 tumor isocenter. +10 degree rotation . 2cm PMMA degrader in front of beam. 15cm PMMA downstream
none - - - - - - - - ADAM phantom measurements
137 high 324.26 - 7x10^8 7 He - 118.01 Aligned with isocenter. rectal balloon inserted to 15cm but Uninflated .no rotation. 10cm PMMA downstream (WET 5.901 + 5.9). phantom in lay down position
138 low 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
139 low 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
140 high 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
141 high 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
142 low 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
143 low 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
144 high 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
145 high 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
146 low 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
147 low 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
148 high 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
149 high 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
150 low 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
151 low 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
152 high 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
153 high 324.26 - 7x10^8 7 He - 118.01 Aligned with predefined rectum spot. rectal balloon inserted but Uninflated .no rotation. 10cm PMMA downstream (WET 5.901 + 5.9). phantom in lay down position
154 low 324.26 - 7x10^8 7 He - 118.01 isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
155 low 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
156 high 324.26 - 8x10^7 8 C - 118.01 isocenter. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
157 high 324.26 - 8x10^7 8 C - 118.01 Aligned with predefined rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
158 low 324.26 - 8x10^7 8 C - 118.01 rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
159 low 324.26 - 7x10^8 7 He - 118.01 rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
160 high 324.26 - 7x10^8 7 He - 118.01 rectum spot. no rotation. rectal balloon Inflated with 30 Ml Air. 10cm PMMA downstream
161 high 324.26 - 7x10^8 7 He - 118.01 Aligned with predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
162 low 324.26 - 7x10^8 7 He - 118.01 rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
163 low 324.26 - 8x10^7 8 C - 118.01 rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
164 high 324.26 - 8x10^7 8 C - 118.01 rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
165 high 324.26 - 8x10^7 8 C - 118.01 Aligned with predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
166 low 324.26 - 8x10^7 8 C - 118.01 rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
167 low 324.26 - 7x10^8 7 He - 118.01 rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
168 high 324.26 - 7x10^8 7 He - 118.01 rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
169 high 324.26 - 7x10^8 7 He - 118.01 Alignment with spot in between isocentre and predefined rectum spot (horizontal alignment isocenter, vertical 12 cm below isocenter). rectal balloon inserted but Uninflated .no rotation. 10cm PMMA downstream (WET 5.901 + 5.9). phantom in lay down position
170 low 324.26 - 7x10^8 7 He - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
171 low 324.26 - 8x10^7 8 C - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
172 high 324.26 - 8x10^7 8 C - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Uninflated. 10cm PMMA downstream
173 high 324.26 - 8x10^7 8 C - 118.01 Aligned with spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
174 low 324.26 - 8x10^7 8 C - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
175 low 324.26 - 7x10^8 7 He - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
176 high 324.26 - 7x10^8 7 He - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 45 Ml Air. 10cm PMMA downstream
177 high 324.26 - 7x10^8 7 He - 118.01 Aligned with spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
178 low 324.26 - 7x10^8 7 He - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
179 low 324.26 - 8x10^7 8 C - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
180 high 324.26 - 8x10^7 8 C - 118.01 spot in between isocentre and predefined rectum spot. no rotation. rectal balloon Inflated with 60 Ml Air. 10cm PMMA downstream
181 high None - None None - - - background
182 low None - None None - - - background