Proton Calorimetry/Meetings/2020/05/06: Difference between revisions

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** the fitting of the PDL curve is not terrible, the range is slightly underestimated. The kB parameters looses its meaning apparently and is strongly dependent on other fit parameters initial value. The PDD reconstructed using the Bortfeld formula and PDL fit parameters with the Birks(Bortfeld) attempt shows a shift of the peak trough the small dose region
** the fitting of the PDL curve is not terrible, the range is slightly underestimated. The kB parameters looses its meaning apparently and is strongly dependent on other fit parameters initial value. The PDD reconstructed using the Bortfeld formula and PDL fit parameters with the Birks(Bortfeld) attempt shows a shift of the peak trough the small dose region
** the excercise is not correct. The usage of the dose (particle_fluence*dEdx) in the Birks formula is not correct. The correct implementation is particle_fluence*Birks(dEdx).
** the excercise is not correct. The usage of the dose (particle_fluence*dEdx) in the Birks formula is not correct. The correct implementation is particle_fluence*Birks(dEdx).
** slides and [https://github.com/rradogna/BraggFit code]  
** results shown in this [http://www.hep.ucl.ac.uk/pbt/wikiData/presentations/2020/RR06052020_FittingResults.pdf presentation]. [https://github.com/rradogna/BraggFit Git code]  
* Will merge the code with the latest version from Saad
* Will merge the code with the latest version from Saad
* Will finalise the market research draft
* Will finalise the market research draft
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=== [[ELogs/LaurentKelleter|Laurent Kelleter]] ===
=== [[ELogs/LaurentKelleter|Laurent Kelleter]] ===
* will send ch 8 of his thesis
=== [[ELogs/SimonJolly|Simon Jolly]] ===
* Expressed interests in investigate [https://stfc.ukri.org/funding/stfc-knowledge-exchange/challenge-led-applied-systems-programme/ STFC CLASP] opportunities or a second IPS grant (about the comprehensive QuARC).
* Will eventually get in touch with Imperial and the UCL medical physics department

Latest revision as of 10:44, 13 May 2020

Minutes for UCL Proton Calorimetry Meetings, 6th May (Everyone is working from home)

Present

Simon Jolly,Laurent Kelleter, Saad Shaikh, Raffaella radogna

Raffaella Radogna

  • As an exercise, both for practicing with the new version of the analysis code and for testing new possibilities, implemented a fitting method to fit a proton PDL distribution abusing of the Birks law as follows: dLdx = S/((dose)^-1 +kB)
    • fitted G4 simulated data and real HIT data
    • the fitting of the PDL curve is not terrible, the range is slightly underestimated. The kB parameters looses its meaning apparently and is strongly dependent on other fit parameters initial value. The PDD reconstructed using the Bortfeld formula and PDL fit parameters with the Birks(Bortfeld) attempt shows a shift of the peak trough the small dose region
    • the excercise is not correct. The usage of the dose (particle_fluence*dEdx) in the Birks formula is not correct. The correct implementation is particle_fluence*Birks(dEdx).
    • results shown in this presentation. Git code
  • Will merge the code with the latest version from Saad
  • Will finalise the market research draft

Saad Shaikh

  • Set up parallel GEANT4 project from a basic example to rebuild Laurent's simulation from scratch.
  • Analysed SOBP data from HIT 12th April 2019, was able to successfully fit data but realised that data acquisition missed some of the beam delivery. Shown in this this presentation.
    • Moved away from current binned fitting implementation, in favour of ROOT's fitting option "I" and using smooth QB function to fit data. Fit speed roughly the same. Note: SOBP fit fails with this option, but fit results are fine without it. SOBP fit takes ~10mins with original binned fit implementation, takes 10s with smooth QB fit.
  • Started research into FPGA programming:
    • Some basic theory of logic gates, LUTs, Flip-flops etc.
    • Ran hardware-version of 'Hello World' on Zybo: program board to blink an LED.
  • Laurent will get in touch with Stephan Brons about HIT FLUKA curves for He, C and O beams.
  • Laurent suggested that analysis of x-axis profile of beam is possible with CMOS sensor – could be worth investigating.

Laurent Kelleter

  • will send ch 8 of his thesis

Simon Jolly

  • Expressed interests in investigate STFC CLASP opportunities or a second IPS grant (about the comprehensive QuARC).
  • Will eventually get in touch with Imperial and the UCL medical physics department