ELogs/FernandoFelix: Difference between revisions
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==To do== | ==To do== | ||
* | ===Correct presentation=== | ||
* Specify that the emission reported by NEMO matches with 4-(3,3-Dimetylbutoxy)-para-Terphenyl, but that we cannot be sure for certain because it is protected IP | |||
* Use more text to explain how the calorimeter works and its purpose | |||
* Rewrite presentation considering that is is for me to understand | |||
* Send corrected presentation | * Send corrected presentation | ||
===Photodiodes=== | |||
* Get the NEP of the photodiodes at 380 nm | |||
* Confirm with Hamamatsu the minimum an maximum currents for the photodiode | |||
* Investigate how to calculate the intrinsic voltage | |||
====== | |||
* How are photodiodes used in CT scans | * How are photodiodes used in CT scans | ||
* Use the resistance to calculate maximum photodiode current in all photodiodes of interest | * Use the resistance to calculate maximum photodiode current in all photodiodes of interest | ||
Line 21: | Line 39: | ||
==Completed== | ==Completed== | ||
===Progress report==== | |||
* Explain what is Proton Therapy and why it is promising | |||
* Explain why there is a Bragg Peak and why calculating its precise location is vital | |||
* Explain what Scintillation is and how it is used | |||
* Explain why scintillation happens | |||
* Explain the specifics of the scintillation in our experiment | |||
* Explain which devices can be used to detect light, which ones we will use and why | |||
* Explain how photodiodes work | |||
* Explain how our photodiodes would work in our experiment | |||
* Get sources for everything in the Report | |||
* Get data for the full Scintillator Spectrum | * Get data for the full Scintillator Spectrum |
Revision as of 10:40, 30 January 2019
Electronic Log for Fernando Franco Felix.
To do
Correct presentation
- Specify that the emission reported by NEMO matches with 4-(3,3-Dimetylbutoxy)-para-Terphenyl, but that we cannot be sure for certain because it is protected IP
- Use more text to explain how the calorimeter works and its purpose
- Rewrite presentation considering that is is for me to understand
- Send corrected presentation
Photodiodes
- Get the NEP of the photodiodes at 380 nm
- Confirm with Hamamatsu the minimum an maximum currents for the photodiode
- Investigate how to calculate the intrinsic voltage
==
- How are photodiodes used in CT scans
- Use the resistance to calculate maximum photodiode current in all photodiodes of interest
- Write progress report
- Design circuit diagram of ADC and Photodiode
- Design physical arrangement of photodiodes in the telescopic calorimeter
- Order photodiodes and ADC*
- Build device*
- Test device*
- Write research essay
Studying
- Radiology
- Quantum Field Theory
- Quantum Computing
Completed
Progress report=
- Explain what is Proton Therapy and why it is promising
- Explain why there is a Bragg Peak and why calculating its precise location is vital
- Explain what Scintillation is and how it is used
- Explain why scintillation happens
- Explain the specifics of the scintillation in our experiment
- Explain which devices can be used to detect light, which ones we will use and why
- Explain how photodiodes work
- Explain how our photodiodes would work in our experiment
- Get sources for everything in the Report
- Get data for the full Scintillator Spectrum
- Sign NDA with TI to get the Module resistance
- How Proton Therapy works
- How photodiodes work
- Talk with Hamamatsu representative
- Photodiodes of interest
- Get the expected photon properties
- Get proton effects in scintillators (Cherenkov Radiation)
- How the ADC Module works
- Single Proton Signal
- Noise in Photodiodes
- Minimal detectable signal for all photodiodes of interest
- How to connect diodes to ADC
- Contact TI about NDA
- Make presentation
- Give presentation