Proton Calorimetry/Meetings/2016/11/30: Difference between revisions
SimonJolly (talk | contribs) (Created page with "== Minutes for UCL Proton Calorimetry Meeting, 30th November 2016 (D17, Physics & Astronomy, UCL) == === Present === '''Simon Jolly''', '''Laurent Kelleter''', '''Adam Knoetze'...") |
SimonJolly (talk | contribs) No edit summary |
||
| Line 17: | Line 17: | ||
'''MH''': | '''MH''': | ||
* Running Clatterbridge simulations: using lateral surface mesh to count particles rather than looking at dose. | * [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2016/mhentz_surface_flux_mesh-30-11-16.pdf Running Clatterbridge simulations: using lateral surface mesh to count particles rather than looking at dose.] | ||
* Will meet with Lawrence to try to shorten simulation time (14 hours...). | * Will meet with Lawrence to try to shorten simulation time (14 hours...). | ||
* Intensity distribution at nozzle not quite flat: will look further upstream | * Intensity distribution at nozzle not quite flat: will look further upstream | ||
| Line 28: | Line 28: | ||
'''LK''': | '''LK''': | ||
* Removed PMT from Geant4 simulations and introduced photodiode element. | * [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2016/LK20161130_Geant4SegmCaloDiode.pdf Removed PMT from Geant4 simulations and introduced photodiode element.] | ||
* Photodiode counts photons! 21 photons per proton at Bragg peak. | * Photodiode counts photons! 21 photons per proton at Bragg peak. | ||
* Need to optimise simulation parameters: will try and reconstruct Bragg peak from photodiode output. | * Need to optimise simulation parameters: will try and reconstruct Bragg peak from photodiode output. | ||
* Will try some Geant4 visitation tutorials to resolve errors with OpenGL visualisation. | * Will try some Geant4 visitation tutorials to resolve errors with OpenGL visualisation. | ||
Revision as of 16:13, 11 January 2017
Minutes for UCL Proton Calorimetry Meeting, 30th November 2016 (D17, Physics & Astronomy, UCL)
Present
Simon Jolly, Laurent Kelleter, Adam Knoetze, Matthieu Hentz, Anastasia Basharina-Freshville
AC:
- Looking through waveform files for bad waveforms.
- No bad waveforms found searching by eye: ABF suggests using a higher rate dataset in order to increase the chances of finding bad waveforms.
- Will look at filtering peaks using built-in ROOT functions and throw away waveforms with double pulses.
- SJ will provide Matlab scripts for reading scope data: aim is to reconstruct energy spectra for scope data from 24th/25th November 2016 Clatterbridge run.
AK:
- Converted August 2016 scope data from binary: data on
/unix/pbt. - Not sure if timebase conversion is working correctly: will try and train conversion code on November 2016 Clatterbridge data.
- Detector emulator producing waveforms with various time distributions: able to provide custom time distributions.
MH:
- Running Clatterbridge simulations: using lateral surface mesh to count particles rather than looking at dose.
- Will meet with Lawrence to try to shorten simulation time (14 hours...).
- Intensity distribution at nozzle not quite flat: will look further upstream
- Managed to obtain Roisin Stephens' log book: not quite sure what most of it means...
- Will plot evolution of beam along beamline at each component.
ABF:
- Working through data from November 2016 Clatterbridge run.
- Still see amplitude reduction at high rates, with the added Brucie Bonus of an amplitude increase around 200kHz...
LK:
- Removed PMT from Geant4 simulations and introduced photodiode element.
- Photodiode counts photons! 21 photons per proton at Bragg peak.
- Need to optimise simulation parameters: will try and reconstruct Bragg peak from photodiode output.
- Will try some Geant4 visitation tutorials to resolve errors with OpenGL visualisation.