Proton Calorimetry/Meetings/2017/01/25: Difference between revisions
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* Detector emulator time resolution much coarser than scope data (~160MHz): need to extract subset of individual waveform data to produce approximation of our waveforms. | * Detector emulator time resolution much coarser than scope data (~160MHz): need to extract subset of individual waveform data to produce approximation of our waveforms. | ||
* Next step is to put output of detector emulator into digitiser and try and recreate Clatterbridge results. | * Next step is to put output of detector emulator into digitiser and try and recreate Clatterbridge results. | ||
* Will also replicate Anastasia's experiments with LED light pulser injected into scintillator+PMT. | |||
'''MH''': | '''MH''': | ||
* [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2017/ | * [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2017/mhentz_doc_full_beamline_a4_25-01-2017.pdf Specification of components for Clatterbridge beamline.] | ||
** | * Need to check position and construction of dose monitors. | ||
* | * '''SJ''' will send current document to '''Clatterbridge''' and '''Carsten Welsch''' (Liverpool) for checking. | ||
* | |||
** | '''ABF''': | ||
** | * Looking into frequency-dependent gain from scope data for last Clatterbridge run. | ||
* Using LED light pulser to inject light into scintillator+PMT to corroborate gain changes: | |||
** Results seem to confirm gain variation seen with experimental results. | |||
** Drop in gain somewhere around 20kHz. | |||
* Finished analysing Caen ADC and waveform data from November 2016 runs: | |||
** http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2016/clatterbridge_nov2016_analysis.pdf | |||
** http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2016/clatterbridge_nov2016_waveform_analysis.pdf | |||
Latest revision as of 14:56, 25 January 2017
Minutes for UCL Proton Calorimetry Meeting, 25th January 2017 (D17, Physics & Astronomy, UCL)
Present
Simon Jolly, Anastasia Basharina-Freshville, Andreas Christou, Adam Knoetze, Matthieu Hentz
AC:
- Working on analysis of scope waveform data.
- ROOT will now identify bad pulses!
- ROOT TSpectrum will analyse waveforms for double peaks based on histogram distribution.
- Will next try and fit to good waveforms to train pulse filtering and integration.
- Anastasia suggests looking at low and high rate files with no absorber.
- Will also complete Java code to import binary files directly into ROOT: need to include input arguments.
AK:
- Looking at various output spectra from Caen detector emulator.
- Trying to set spectrum of waveform magnitudes (Caen instructions plus trial and error...).
- Taking average of "large" waveforms to produce mean waveform for emulator.
- Detector emulator time resolution much coarser than scope data (~160MHz): need to extract subset of individual waveform data to produce approximation of our waveforms.
- Next step is to put output of detector emulator into digitiser and try and recreate Clatterbridge results.
- Will also replicate Anastasia's experiments with LED light pulser injected into scintillator+PMT.
MH:
- Specification of components for Clatterbridge beamline.
- Need to check position and construction of dose monitors.
- SJ will send current document to Clatterbridge and Carsten Welsch (Liverpool) for checking.
ABF:
- Looking into frequency-dependent gain from scope data for last Clatterbridge run.
- Using LED light pulser to inject light into scintillator+PMT to corroborate gain changes:
- Results seem to confirm gain variation seen with experimental results.
- Drop in gain somewhere around 20kHz.
- Finished analysing Caen ADC and waveform data from November 2016 runs: