Difference between revisions of "LaserComptonScat"
Line 1,264: | Line 1,264: | ||
− | <math> (E_\gamma) </math>@532nm = <math> 4\gamma^2E_{laser}=4\left(\frac{E_e}{m_e}\right)^2E_{laser}= 4\left(\frac{20}{0.511}\right)^2 2.326</math> | + | <math> (E_\gamma) </math>@532nm = <math> 4\gamma^2E_{laser}=4\left(\frac{E_e}{m_e}\right)^2E_{laser}= 4\left(\frac{20 MeV}{0.511 MeV}\right)^2 2.326 eV</math> |
<math> (E_\gamma) </math>@1064nm = <math>4\gamma^2E_{laser}=\frac {1}\sqrt{1 - \beta_r^2} =\frac {1}\sqrt{1 - 0.975^2} = 4.5</math> | <math> (E_\gamma) </math>@1064nm = <math>4\gamma^2E_{laser}=\frac {1}\sqrt{1 - \beta_r^2} =\frac {1}\sqrt{1 - 0.975^2} = 4.5</math> |
Revision as of 19:32, 24 October 2008
Notes on Syed's GEANT4 project for Laser Compton Scattering at the IAC
2/7/08
Step 1: Configure Event generator in which electron parameters can be changes. Move the source left and right of the center. Change is momentum direction; going left and going right.
Step 2: comment out electron and add gamma. get it to move in the same way.
Step 3: turn them both on
Step 4: if fail then find references on event Generator with 2 intersecting beams, perhaps ILC, LHC or BaBar has one.
2/14/08
Problem last week was due to editing the wrong file.
We now have a event generator which starts an electron and a photon moving toward eachother.
We see and event when the photon energy is 500 keV and only the compton process is turned on.
Next step:
1.) edit the Stepping Verbose so only a Compton event is printed out
2.) add an event counter so we know how many beam triggers are done to get the event( edit SteppingVerbose.h, add a global variable to the class definition)
output : event number, Photon position, Electron position, Photon and Electron initial and final momentum.
3.) Compare output with BDSIM at 500 keV
4.) Insert new physics process for Low Energy Compton
2/28/08
1.) edit the Stepping Verbose so only a Compton event is printed out (done)
2.) add an event counter so we know how many beam triggers are done to get the event( edit SteppingVerbose.h, add a global variable to the class definition)
output : event number, Photon position, Electron position, Photon and Electron initial and final momentum.
3.) Compare output with BDSIM at 500 keV
4.) Insert new physics process for Low Energy Compton (done)
Still need to do 2 &3.
Compare hand calculation of an event or two with GEANT4 output
3/6/08
Goals for last week
1.) Compare hand calculation of an event or two with GEANT4 output
2.) add an event counter so we know how many beam triggers are done to get the event( edit SteppingVerbose.h, add a global variable to the class definition)
output : event number, Photon position, Electron position, Photon and Electron initial and final momentum.
3.) Compare output with BDSIM at 500 keV (BDSIM crashes at this high energy)
Tasks for next week:
1.) How many GEANT4 triggers does it take to get an event when E-gamma = 30 eV
Zero/10^7. However, if I set the E-gamma=300 eV then I see 1819 triggers out of 10 million iterations.
2.) remove detector which blocks reactions for 0<Z<200
[box]Commented out Sensitive Detector function in DetectorConstruction.cc. I still see the SD in display[/box]
3.) Store tracking info for photon and electron into variables for printing out
[box]Show the text file for 300 eV laser and 20 MeV electron[/box]
4.) Compare BDSIM and GEANT4 for E-gamma = 300 or 30 eV
[box]BDSIM crashes at 300 eV[/box]
5.) Any measured X-sections for 2 eV Compton?
[box]Was not able to find on internet. BDSIM however, uses GEANT4 database...We might need to dig into their code, I got the source code[/box]
3/13/08
Tasks:
1.) fix output file so electons and photon from same event on same line
o Geant4 output.txt:
Variable | value |
# Triggers | 153610 |
Compton Event # | 1 |
Scattered Photon energy (keV) | 0.299784 |
photon X position | 0 |
photon Y position | 0 |
photon Z position | -441.431 |
photon X Momentum | 6.30938e-05 |
photon Y Momentum | 0.000285127 |
photon Z Momentum | -6.77687e-05 |
Particle ID | 22 |
Scattered e- KE (keV) | 0.000215785 |
Scattered electron X position | -177.027 |
Scattered electron Y position | -800 |
Scattered electron Z position | 590.444 |
Scattered electron X Momentum | -6.30938e-05 |
Scattered electron Y Momentum | -0.000285127 |
Scattered electron Z Momentum | 0.000367769 |
Particle ID | 11 |
- = electron compton wavelength =
- = electron final kinetic energy
- = ejected electron angle w.r.t original photon direction
15361 || 1 || 0.299784 0 0 -441.431 6.30938e-05 0.000285127 -6.77687e-05 22 0.000215785 -177.027 -800 590.444 -6.30938e-05 -0.000285127 0.000367769 11 32685.8 2 0.299791 0 0 -131.765 -7.34024e-05 0.000285186 -5.61732e-05 22 0.000208981 192.024 -746.061 800 7.34024e-05 -0.000285186 0.000356173 11 33535.9 3 0.299682 0 0 -754.315 -0.000175966 -1.63899e-05 -0.000242026 22 0.000318029 504.599 46.9997 800 0.000175966 1.63899e-05 0.000542026 11 34157 4 0.299864 0 0 -579.415 -7.39129e-05 -0.000282637 6.7614e-05 22 0.00013635 209.21 800 78.3512 7.39129e-05 0.000282637 0.000232386 11
. . . .
2.)Compare compton scattering between BDSIM and GEANT4 for 300 eV photon incident on a 20 MeV electron
BDSIM | GEANT4 |
o BDSIM (5,000,000 Iterations):
o Geant4 (5,000,000 iterations):
3.) remove physics processes and run 10^9 events piece mealed so you save event generator seed every 10^8
o Still waiting for run_0.rndm, run_1.rndm...., files on inca. Process at the moment is executing!
3/20/08
Taks for next week
1.) Check elastic kinematics of LowEnergyCompton for case where electron is 1 eV and incident photon ranges between 300 ev and 8 keV
output.txt for 1 eV electron and 8 keV gamma. Number of iterations: 1,000,000
Variable | LowEnCompton_value | Compton_value |
# Triggers | 53 | 48 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 7.79307 | 7.76672 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | -752.482 | -751.601 |
photon X Momentum | -0.0050576 | 0.00228733 |
photon Y Momentum | 0.00239243 | -0.00204773 |
photon Z Momentum | -0.00542483 | -0.0071342 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 0.206934 | 0.233283 |
Scattered electron X position | 584.874 | -234.503 |
Scattered electron Y position | -276.667 | 209.94 |
Scattered electron Z position | 800 | 800 |
Scattered electron X Momentum | 0.0050576 | -0.00228733 |
Scattered electron Y Momentum | -0.00239243 | 0.00204773 |
Scattered electron Z Momentum | 0.0134248 | 0.0151342 |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 8 keV incoming Photons | GEANT4_Compton, 8 keV incoming Photons |
GEANT4_LowEnCompton, 1 eV incoming Electrons | GEANT4_Compton, 1 eV incoming Electrons |
output.txt for 1 eV electron and 300 eV gamma. Number of iterations: 2,000,000
Variable | LowEnCompton_value | Compton_value |
# Triggers | 32685 | 7123 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.299791 | 0.299745 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | -131.765 | 554.105 |
photon X Momentum | -7.34024e-05 | 0.000261431 |
photon Y Momentum | 0.000285186 | 5.7275e-05 |
photon Z Momentum | -5.61732e-05 | -0.000134982 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 0.000208981 | 0.000255222 |
Scattered electron X position | 192.024 | -147.787 |
Scattered electron Y position | -746.061 | -32.3775 |
Scattered electron Z position | 800 | 800 |
Scattered electron X Momentum | 7.34024e-05 | -0.000261431 |
Scattered electron Y Momentum | -0.000285186 | -5.7275e-05 |
Scattered electron Z Momentum | 0.000356173 | 0.000434982 |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 300 eV incoming Photons | GEANT4_Compton, 300 eV incoming Photons |
GEANT4_LowEnCompton, 1 eV incoming Electrons | GEANT4_Compton, 1 eV incoming Electrons |
see if #triggers is same as above when= 800 eV and = 1 eV
2.) Same as above except now change the incident electron energy up to 20 MeV, 50 ev, 1 keV, 10 keV, 1Mev, 10 MeV
output.txt for 20 MeV electron and 300 eV gamma. Number of Iterations: 2,000,000
Variable | LowEnCompton_value | Compton_value |
# Triggers | 32685 | 7123 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.299791 | 0.299745 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | -131.765 | 554.105 |
photon X Momentum | -7.34024e-05 | 0.000261431 |
photon Y Momentum | 0.000285186 | 5.7275e-05 |
photon Z Momentum | -5.61732e-05 | -0.000134982 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 0.000208981 | 0.000255222 |
Scattered electron X position | 192.024 | -147.787 |
Scattered electron Y position | -746.061 | -32.3775 |
Scattered electron Z position | 800 | 800 |
Scattered electron X Momentum | 7.34024e-05 | -0.000261431 |
Scattered electron Y Momentum | -0.000285186 | -5.7275e-05 |
Scattered electron Z Momentum | 0.000356173 | 0.000434982 |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 300 eV incoming Photons | GEANT4_Compton, 300 eV incoming Photons |
GEANT4_LowEnCompton, 20 MeV incoming Electrons | GEANT4_Compton, 20 MeV incoming Electrons |
4/10/08
1.) check if cross section is same fore 100 eV <
<800 eVCase-a)=20 MeV, =100 eV, process="LowEnCompton", #events: 2,000,000 Result=0 interactions
Case-b)=20 MeV, =100 eV, process="Compton", #events: 2,000,000 Result=0 interaction
Case-c)=20 MeV, =105 eV, process="LowEnCompton", #events: 2,000,000 Result=0 interaction
Case-d)=20 MeV, =105 eV, process="Compton", #events: 2,000,000 Result= 12 interactions
Variable | LowEnCompton_value (case-c) | Compton_value (case-d) |
# Triggers | 490155 | |
Compton Event # | 2 | |
Scattered Photon energy (keV) | 0.104974 | |
photon X position | 0 | |
photon Y position | 0 | |
photon Z position | -521.846 | |
photon X Momentum | 2.94637e-05 | |
photon Y Momentum | -9.85919e-05 | |
photon Z Momentum | -2.07632e-05 | |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 2.58365e-05 | |
Scattered electron X position | -239.076 | |
Scattered electron Y position | 800 | |
Scattered electron Z position | 498.63 | |
Scattered electron X Momentum | -2.94637e-05 | |
Scattered electron Y Momentum | 9.85919e-05 | |
Scattered electron Z Momentum | 0.000125763 | |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 105 eV incoming Photons | GEANT4_Compton, 105 eV incoming Photons |
400 px |
GEANT4_LowEnCompton, 20 MeV incoming Electrons | GEANT4_Compton, 20 MeV incoming Electrons |
400 px |
Case-e)=20 MeV, =150 eV, process="LowEnCompton", #events: 2,000,000 Result=0 interaction
Case-f)=20 MeV, =150 eV, process="Compton", #events: 2,000,000 Result= 93 interactions
Variable | LowEnCompton_value (case-e) | Compton_value (case-f) |
# Triggers | 36600 | |
Compton Event # | 2 | |
Scattered Photon energy (keV) | 0.149994 | |
photon X position | 0 | |
photon Y position | 0 | |
photon Z position | 331.001 | |
photon X Momentum | -6.9277e-05 | |
photon Y Momentum | -2.37144e-05 | |
photon Z Momentum | 0.000130907 | |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 5.60297e-06 | |
Scattered electron X position | 800 | |
Scattered electron Y position | 273.85 | |
Scattered electron Z position | 551.485 | |
Scattered electron X Momentum | 6.9277e-05 | |
Scattered electron Y Momentum | 2.37144e-05 | |
Scattered electron Z Momentum | 1.9093e-05 | |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 150 eV incoming Photons | GEANT4_Compton, 150 eV incoming Photons |
400 px |
GEANT4_LowEnCompton, 20 MeV incoming Electrons | GEANT4_Compton, 20 MeV incoming Electrons |
400 px |
Case-g)=20 MeV, =200 eV, process="LowEnCompton", #events: 2,000,000 Result=0 interaction
Case-h)=20 MeV, =200 eV, process="Compton", #events: 2,000,000 Result= 179 interactions
Variable | LowEnCompton_value (case-g) | Compton_value (case-h) |
# Triggers | 33713 | |
Compton Event # | 2 | |
Scattered Photon energy (keV) | 0.19991 | |
photon X position | 0 | |
photon Y position | 0 | |
photon Z position | 778.343 | |
photon X Momentum | 7.46479e-05 | |
photon Y Momentum | 0.000183052 | |
photon Z Momentum | -2.97293e-05 | |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 8.98786e-05 | |
Scattered electron X position | -7.03722 | |
Scattered electron Y position | -17.2567 | |
Scattered electron Z position | 800 | |
Scattered electron X Momentum | -7.46479e-05 | |
Scattered electron Y Momentum | -0.000183052 | |
Scattered electron Z Momentum | 0.000229729 | |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 200 eV incoming Photons | GEANT4_Compton, 200 eV incoming Photons |
400 px |
GEANT4_LowEnCompton, 20 MeV incoming Electrons | GEANT4_Compton, 20 MeV incoming Electrons |
400 px |
Case-i)=20 MeV, =400 eV, process="LowEnCompton", #events: 2,000,000 Result= 697 interaction
Case-j)=20 MeV, =400 eV, process="Compton", #events: 2,000,000 Result= 898 interactions
Variable | LowEnCompton_value (case-i) | Compton_value (case-j) |
# Triggers | 6012 | 5318 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.399439 | 0.399849 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | 233.061 | 760.793 |
photon X Momentum | -0.000130127 | 1.38275e-06 |
photon Y Momentum | 0.000205697 | 0.000341899 |
photon Z Momentum | -0.000316714 | 0.000207322 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 0.000560591 | 0.000150707 |
Scattered electron X position | 102.933 | -0.281371 |
Scattered electron Y position | -162.712 | -69.5718 |
Scattered electron Z position | 800 | 800 |
Scattered electron X Momentum | 0.000130127 | -1.38275e-06 |
Scattered electron Y Momentum | -0.000205697 | -0.000341899 |
Scattered electron Z Momentum | 0.000716714 | 0.000192678 |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 400 eV incoming Photons | GEANT4_Compton, 400 eV incoming Photons |
GEANT4_LowEnCompton, 20 MeV incoming Electrons | GEANT4_Compton, 20 MeV incoming Electrons |
Case-k)=20 MeV, =800 eV, process="LowEnCompton", #events: 2,000,000 Result= 2534 interactions
Case-l)=20 MeV, =800 eV, process="Compton", #events: 2,000,000 Result= 3314 interactions
Variable | LowEnCompton_value (case-k) | Compton_value (case-l) |
# Triggers | 2033 | 1703 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.798489 | 0.799399 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | 302.879 | 759.113 |
photon X Momentum | 0.000776101 | -0.000120116 |
photon Y Momentum | -8.6914e-05 | -0.000672133 |
photon Z Momentum | -0.00016643 | 0.000415751 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 0.00151064 | 0.000600626 |
Scattered electron X position | -399.218 | 12.7812 |
Scattered electron Y position | 44.7076 | 71.5199 |
Scattered electron Z position | 800 | 800 |
Scattered electron X Momentum | -0.000776101 | 0.000120116 |
Scattered electron Y Momentum | 8.6914e-05 | 0.000672133 |
Scattered electron Z Momentum | 0.00096643 | 0.000384249 |
Particle ID | 11 | 11 |
o Plots
GEANT4_LowEnCompton, 800 eV incoming Photons | GEANT4_Compton, 800 eV incoming Photons |
GEANT4_LowEnCompton, 20 MeV incoming Electrons | GEANT4_Compton, 20 MeV incoming Electrons |
2.) Create your own Physics list subroutine called SyedCompton which is a renamed copy of LowEnergyCompton
Created local SyedLowEnergyCompton and SyedCompton subroutines:
Case-m)=20 MeV, =800 eV, process="LowEnCompton", #events: 2,000,000 Result= 2534 interactions
Case-n)=20 MeV, =800 eV, process="Compton", #events: 2,000,000 Result= 3314 interactions
Variable | SyedLowEnCompton_value (case-m) | SyedCompton_value (case-n) |
# Triggers | 2033 | 1703 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.798489 | 0.799399 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | 302.879 | 759.113 |
photon X Momentum | 0.000776101 | -0.000120116 |
photon Y Momentum | -8.6914e-05 | -0.000672133 |
photon Z Momentum | -0.00016643 | 0.000415751 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 0.00151064 | 0.000600626 |
Scattered electron X position | -399.218 | 12.7812 |
Scattered electron Y position | 44.7076 | 71.5199 |
Scattered electron Z position | 800 | 800 |
Scattered electron X Momentum | -0.000776101 | 0.000120116 |
Scattered electron Y Momentum | 8.6914e-05 | 0.000672133 |
Scattered electron Z Momentum | 0.00096643 | 0.000384249 |
Particle ID | 11 | 11 |
o Plots
GEANT4_SyedLowEnCompton, 800 eV incoming Photons | GEANT4_SyedCompton, 800 eV incoming Photons |
GEANT4_SyedLowEnCompton, 20 MeV incoming Electrons | GEANT4_SyedCompton, 20 MeV incoming Electrons |
4/17/08
1.) Lower cutoff energy and redo rate plots from previous week. Created local SyedLowEnergyCompton and SyedCompton subroutines:
Case-a)=20 MeV, =2.326 eV, process="LowEnCompton", #events: 2,000,000 lowEnergyLimit(2*eV) intrinsicLowEnergyLimit(1*eV) Result= 270 interactions
Case-b)=20 MeV, =2.326 eV, process="Compton", #events: 2,000,000 lowEnergyLimit(2*eV) Result= 0 interactions
Variable | SyedLowEnCompton_value (case-a) | SyedCompton_value (case-b) |
# Triggers | 18955 | |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.002326 | |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | 601.57 | |
photon X Momentum | -6.4311e-10 | |
photon Y Momentum | -9.36186e-10 | |
photon Z Momentum | 2.326e-06 | |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 1.26208e-15 | |
Scattered electron X position | 549.557 | |
Scattered electron Y position | 800 | |
Scattered electron Z position | 601.807 | |
Scattered electron X Momentum | 6.43062e-10 | |
Scattered electron Y Momentum | 9.36116e-10 | |
Scattered electron Z Momentum | 2.77288e-13 | |
Particle ID | 11 | 11 |
o Plots
GEANT4_SyedLowEnCompton, 2.326 eV incoming Photons | GEANT4_SyedCompton, 2.326 eV incoming Photons |
400 px |
GEANT4_SyedLowEnCompton, 20 MeV incoming Electrons | GEANT4_SyedCompton, 20 MeV incoming Electrons |
400 px |
Case-c)=20 MeV, =2.326 eV, process="LowEnCompton", #events: 2,000,000 lowEnergyLimit(2*eV) intrinsicLowEnergyLimit(0.1*eV) Result= 270 interactions
Case-d)=20 MeV, =2.326 eV, process="LowEnCompton", #events: 5,000,000 lowEnergyLimit(2*eV) intrinsicLowEnergyLimit(0.1*eV) Result= 636 interactions
Variable | SyedLowEnCompton_value (case-c) | SyedLowEnCompton_value (case-d) |
# Triggers | 18955 | 18955 |
Compton Event # | 2 | 2 |
Scattered Photon energy (keV) | 0.002326 | 0.002326 |
photon X position | 0 | 0 |
photon Y position | 0 | 0 |
photon Z position | 601.57 | 601.57 |
photon X Momentum | -6.4311e-10 | -6.4311e-10 |
photon Y Momentum | -9.36186e-10 | -9.36186e-10 |
photon Z Momentum | 2.326e-06 | 2.326e-06 |
Particle ID | 22 | 22 |
Scattered e- KE (keV) | 1.26208e-15 | 1.26208e-15 |
Scattered electron X position | 549.557 | 549.557 |
Scattered electron Y position | 800 | 800 |
Scattered electron Z position | 601.807 | 601.807 |
Scattered electron X Momentum | 6.43062e-10 | 6.43062e-10 |
Scattered electron Y Momentum | 9.36116e-10 | 9.36116e-10 |
Scattered electron Z Momentum | 2.77288e-13 | 2.77288e-13 |
Particle ID | 11 | 11 |
o Plots
GEANT4_SyedLowEnCompton, 2.326 eV incoming Photons(2-million events) | GEANT4_SyedCompton, 2.326 eV incoming Photons (5-million events) |
GEANT4_SyedLowEnCompton, 20 MeV incoming Electrons(2-million events) | GEANT4_SyedCompton, 20 MeV incoming Electrons(5-million events) |
2.) After SyedCompton runs, change it so the final electron kinetic energy is calculated correctly.
Final Electron KE is approx. equals to 20MeV in this case because energy lost by incoming electrons is so small following Compton interaction as shown in above plots ...suggestions???
4/24/08
1.) Try HeP Lorentz vector class and set vectors within the SyedCompton routine
HepLorentzVector P4eLab
P4eLab.setPx(HepDouble);
5/1/08
Got the class
G4LorentzVector* P4eLab;
defined in SyedLowEnergyCompton.hh
Then created the variable
P4eLab = new G4LorentzVector;
P4eLab->setPx(1.4596);
G4cout << "P4e Px= " << P4eLab << G4endl;
in SyedLowEnergyCompton.cc
1.) Check the functionality of the function calls below to see if we understand how they work
P4eLab->setPx(1.4596); cout << "P4e " << P4eLab << endl;
cout << "rest 4 Vector" << P4eLab.rest4Vector() << endl;---->"These functions are not declared!" cout << "rest 4 Vector" << P4eLab.rest4Vector().beta << endl;---->"These functions are not declared!"
2.) Look up relativistic Lorentz transformation to boost to electron rest frame. A fair start is at
http://www.iac.isu.edu/mediawiki/index.php/Forest_Relativity_Notes#Lorentz_Transformations
3.) check out reference
A.A. Sokolov and I.M. Ternov Sov. Phys. Dokl. 8 (1964), p. 1203.
may lead to a reference for our problem.
4.) Install GEANT4 on Brems
*done* but with graphics option was disabled, there are issues with OpenGL on brems and I was not able to compile MesaGL in my local folder
5.) create 2 sets of 24 random number seed files. The first set of 24 random number seed files will run for 2 hours and the second set will run for 24 hours.
*Compilation Error message on Brems:* Compiling LCS.cc ... Using global libraries ... Linking LCS ... /home/naeesyed/apps/geant4/geant4.9.1.p02/lib/Linux-g++/libG3toG4.so: undefined reference to `G3Division::UpdateVTE()' /home/naeesyed/apps/geant4/geant4.9.1.p02/lib/Linux-g++/libG3toG4.so: undefined reference to `G3Division::CreatePVReplica()' /home/naeesyed/apps/geant4/geant4.9.1.p02/lib/Linux-g++/libG3toG4.so: undefined reference to `G3Division::G3Division(G3DivType, G3VolTableEntry*, G3VolTableEntry*, int, int, int, double, double)' /home/naeesyed/apps/geant4/geant4.9.1.p02/lib/Linux-g++/libG3toG4.so: undefined reference to `G3Division::G3Division(G3VolTableEntry*, G3VolTableEntry*, G3Division const&)' collect2: ld returned 1 exit status make: *** [/home/naeesyed/geant4/bin/Linux-g++/LCS] Error 1
6/12/08
1.) using interactive version of LCS test the transformations below
We have proton and electron. In the Lab frame electron is moving along the x-axis with momentum ;
- Lab Frame
- CM Frame
- :
- Find
Using the last two equations we will get the following for x component:
- Example
- : electron mass is neglibible
- : Mass of a proton
- Electron
- In our case 4-vectors for particles are
Compiling on brems
1.) turned off a GUI and G3toG4 stuff
2.) edited $G4INSTALL/config/binmake.gmk and commmented out the VIS variables and include commands
3.) comment out interactive commands in LCS.cc so only batch mode would run
we are compiled now.
Practice submitting batch jobs via ssh command and the random number seed files.
Submitting batch jobs on brems
Concept: While logged into brems you can submit a job to run on bres 3 by using the ssh command via
ssh brems3 source run0.script
the script "run0.script"
contains all the command you would type interactively in order to execute the program
source ~/apps/geant4/geant4.9.1.p02/env.sh cd /home/naeesyed/geant4/LCS/Laser_Compton_Backscattering/run0 LCS vis.mac > /dev/null
Khalid has cross sections in his interview talk
9/5/08
Insert Transformation matrix to take electron beam in Lab frame to the electron in the electron's rest frame.
Find
- Lab Frame
- Transform from the LAB frome to a reference frame in which the electron is at rest
- Find
The relativistic transformation matrix for the four momentum is given by
Insert Transformation matrix to transform outgoing X-ray momentum four vector in the Lab from to the electron at rest frame.
Was the energy of 2.25 MeV just chosen as an example? This is the calculated electron energy in C.M. frame.
Write equation for
= angle of the outgoing X-ray in the electron rest frame.
Klein-Nishina Compton Cross Section
Khalid LCS paper:File:Chouffani PhysRevST 050701 2006 pg9.pdf
Questions: Why and ?
is the detector's angle with respect to incoming LCS X-rays.
9/26/08
1.) Use B= 0.975 to transform photon to electrons rest frame inside the event generator
for a few events check
before and after
// muon momenta in the primary's rest frame CLHEP::HepLorentzVector pMu1 ( p0x, p0y, p0z, p00 ); CLHEP::HepLorentzVector pMu2 ( -p0x, -p0y, -p0z, p00 );
// muon momenta in the boosted frame CLHEP::HepLorentzVector boostedPMu1 = pMu1.boostZ ( beta ); CLHEP::HepLorentzVector boostedPMu2 = pMu2.boostZ ( beta );
Declared the following in the event generator: //declaring G4LorentzVector for both electrons and gammas G4double beta = 0.975; p4eLab = new G4LorentzVector; p4gammaLab = new G4LorentzVector;
p4gammaBoostedx = new G4LorentzVector; p4gammaBoostedy = new G4LorentzVector; p4gammaBoostedz = new G4LorentzVector;
p4eBoostedx = new G4LorentzVector; p4eBoostedy = new G4LorentzVector; p4eBoostedz = new G4LorentzVector;
However, I'm stuck with in getting momentum values in the lab frame for both electrons and gammas...G4ParticleDefinition doesn't include "getMomentum" function and we need momentums in the lab frame that could be passed in the above declared variables?-- Daq 09:28, 3 October 2008 (MDT)
Update: "ExN02EventAction" class is getting momentum values of the existing event, I declared above variables in EventAction class. // get information on primary particle
G4PrimaryParticle* primary=evt->GetPrimaryVertex(0)->GetPrimary(0);
//Added by Syed p4eLab(primary->GetMomentum().x(),primary->GetMomentum().y(),primary->GetMomentum().z(), primary->GetEnergy());
p4eBoostedx = p4eLab.boostX(beta); p4eBoostedy = p4eLab.boostY(beta); p4eBoostedz = p4eLab.boostZ(beta); Now, the question is where to LorentzBoost gammas? --Daq 13:26, 3 October 2008 (MDT)
2.) Now take tracking verbose output and by a hand calculation transform the outgoing photon
to the lab frame
3.) Check EventAction to see if the photon momentum and energy are being passed
10/3/08
1.) In event generator:
Boost electron and gamma and compare with hand calculation. (Units: MeV)
P4e LabFrame w/o boost= (20 ,0 ,0 ,20) P4e RestFrame w boost= (177.764 ,0 ,0 ,177.764) P4gamma LabFrame w/o boost = (2.236e-06 ,0 ,0 ,2.236e-06) P4gamma RestFrame w boost= (1.9874e-05 ,0 ,0 ,1.9874e-05) Using findBoostToCM() function of Hep3Vector p4e RestFrame w/ findBoostToCM function= ((-0,-0,-1)) p4gamma RestFrame w/ findBoostToCM function= ((-0,-0,-1))
10/10/08
=0.975, =20 MeV
P4e RestFrame w/o boost= (20.0065 ,0 ,0 ,20) Electron Rest w/o boost mass = 0.511 P4e RestFrame w/ boost= (2.27955 ,0 ,0 ,2.22154) Electron Rest w/ boost mass = 0.511
=0.9996737585, =20 MeV, =2.236 eV
P4e RestFrame w/o boost= (20.0065 ,0 ,0 ,20) Electron Rest w/o boost mass = 0.511 P4e RestFrame w/ boost= (0.511 ,0 ,0 ,-2.48526e-08) Electron Rest w/ boost mass = 0.511 P4gamma RestFrame w/o boost = (2.236e-06 ,0 ,0 ,2.236e-06) P4gamma RestFrame w/ boost= (2.85602e-08 ,0 ,0 ,2.85602e-08)
Simulation
i) No. of events=10,000,000
P4e RestFrame w/ boost= (0.511 ,0 ,0 ,-2.48526e-08) P4gamma RestFrame w/ boost= (2.85602e-08 ,0 ,0 ,2.85602e-08) LowEnCompton events=0 ------------------------------------------------------------- lowEnergyLimit(0*eV): Cannot be set below 1 eV, getting G4Exception error message if I set the intrinsic low energy below 1 eV and 1eV > 2.85602e-08 MeV
ii) No. of events executing on inca=100,000,000
P4e RestFrame w/ boost= (0.511 ,0 ,0 ,-2.48526e-08) P4gamma RestFrame w/o boost = (2.236e-06 ,0 ,0 ,2.236e-06)
/home/syed/geant4/LCS/Laser_Compton_Backscattering/output.txt format:
ComptonEventTrigger/10, ComptonEventCounter, fTrack->GetKineticEnergy())*1000, fTrack->GetPosition().x(), fTrack->GetPosition().y(), fTrack->GetPosition().z(), fTrack->GetMomentum().x(), fTrack->GetMomentum().y(), fTrack->GetMomentum().z(), fTrack->GetDefinition()->GetPDGEncoding(), electronKE, electronxPosition, electronyPosition, electronzPosition, electronxMomentum, electronyMomentum, electronzMomentum, electronPDGID
10/17/08
The boosted electron and gamma energies seem to be working now
P4e RestFrame w/o boost= (20.0065 ,0 ,0 ,20) P4e RestFrame w/ boost= (0.511 ,0 ,0 ,-2.48526e-08) P4gamma RestFrame w/o boost = (2.236e-06 ,0 ,0 ,-2.236e-06) P4gamma RestFrame w/ boost= (0.000175058 ,0 ,0 ,-0.000175058)
What should gamma energy be after boosting to electron rest frame?
=0.9996737585 = 2.326 eV Hand calculated value is = 0.03 eV from =2.236 eV. Computer simulated value is = 0.0285602 eV from =2.236 eV. ---------------------------------------------------------------------------------------------------- =0.9996737585 = -2.326 eV Hand calculated value is = 181.05 eV from =2.236 eV. Computer simulated value is = 175.058 eV from = 2.236 eV.
Now boost the electron and gamma vectors back to the lab frame in Stepping Verbose
Number of events executed: 20 million
GEANT4_SyedLowEnCompton, | :266 nm=4.652 eV (for 532 nm laser), =20 MeVGEANT4_SyedLowEnCompton, | :266 nm=4.652 eV (for 532 nm laser), =20 MeV
GEANT4_SyedLowEnCompton, | :532 nm=2.326 eV (for 1064 nm laser), =20 MeVGEANT4_SyedLowEnCompton, | :532 nm=2.326 eV (for 1064 nm laser), =20 MeV
@532nm =
@1064nm =
Save random number for Comptom event.
Write Kelin Nishina cross section formula in your Compton scattering physics process.