July2012PosSimulation
In G4beamline manual "The electromagnetic processes of these physics lists are advertised to be valid above a few hundred electron Volts; Geant4 has a set of low energy electromagnetic processes, indicated by a suffix “_EMX” in the physics list name."
2 MeV Positrons
Measured Electron energy distribution at 10 MeV on 1.mm target
Simulation steps
1.) GEANT4 Simulated Beam energy distribution
2.) GEANT4 Simulated Positrons emitted from 1.x mm thick target
3.) Now use above Positron distribution as the particle source for G4beamline
Positrons hitting Tungsten Converter target
4.) Use GEANT4 to determine 511s from the positrons distribution impinging converter target
Oct 16th 2012 BenchMark
stages:
1. Program to input emittance, output beamsize, beam, divergence and beam energy.
2. e- on W, outcome e+. Incident electron distribution on T1. with general particle source with step 1 histogram. check graph x, y, z theta, En_dis out_put is the input. (directory for each).
3. insert T1 and generate positron distribution.
4. Acceleractor code to transport positron along the beamline. Out put positron theta, beamsize (x,y), energy distribution, out puts transported positron.
5. Geant4 takes step 4 output generates gamma (and other e+,e-) and look at those goes to detectors. beamline, plus shielding, and detectors.
Simulations
Partical Data Ground ID: PDGid=11 is electron. PDGid=-11 is positron. PDGid=22 is photon.
Parameters
Dipole vacuum chamber width is
mmThe cavity exit diameter is about 7.3 mm.
Energy Spread Two Skewed Gaussian Fit
Energy spread fitted with two skewed Gaussian.
Beam Distributions Beyond RMS: Media:Beam_Distributions_Beyond_RMS.pdf
Amplitude = 2.13894, mean = 12.07181, sigma_L = 4.46986, sigma_R = 1.20046
Sigma = 2.83516, Skewness = -0.57658
Amplitude2 = 10.88318, mean2 = 12.32332, sigma_L2 = 0.69709, sigma_R2 = 0.45170
Sigma2 = 0.57440, Skewness2 = -0.21360
Electron Distribution Upstream and Positron Distribution Downstream of Target1
simulation: Electron Distribution Upstream and Positron Distribution Downstream of Target1
3067274 Electrons fired.
T1_s=943.5
FDT1_s=$T1_s-26.52
BDT1_s=$T1_s+26.52
Thickness of T1 is 1.016 mm, radius of T1 is 15.875 mm (0.625 inches).
Step 1: Generating positron from electron beam
Detector is after T1 to saple positron distribution. 13,799,743,800 electrons shot at the tungsten target to generate positrons.
step 1: ratio
DDNT1 = Detector DowN from T1
DQ4 = Detector at entrance Quad 4 located right after T1
DD1 = Detector at entrance of the first Dipole.
e-(DUPT1) = 13,799,743,800
e+(DDNT1) =
e+(DQ4) =
e+(DQ4) =
e-(DUPT1)/e+(DDNT1) = 1260
e-(DUPT1)/e+(DQ4) = 219811 =
e-(DUPT1)/e+(DD1) = 2046832 =
e+(DDNT1)/e+(DQ4) = 174
e+(DDNT1)/e+(DD1) = 1624
e+(DQ4)/e+(DD1) = 9.3
Step 1: Generated Beam on DDNT1
Detector down T1:
Positrons on detector right before Q4.
Y profile (why is the distribution clipped on the left side in the figure)
Sharp drop issue
The Y-position distribution of the beam shown in Figure ~\ref{sim-DDNT1-y-vs-x} has a sharp drop in the region between -25.8 mm and -27.2 mm that corresponds to the boundary of the target T1. Figure ~\ref{sim-DDNT1-T1-geo} shows the geometry of the target T1 and the sensitive detector DDNT1. If the target size was increased, it would eventually intersected the detector DDNT1 at a distance of 25.8 mm from the beam center. A 1.4 mm wide stripe of low counts is visible on DDNT1 that is a result of the target's thickness of 1.016 mm and the 45 degree angle of intersection. (
). The edge of the target does not produce many positrons compared to the face of the target, and as a result you see the stripe.As shown in figures ~\ref{sim-DDNT1-theta-vs-y} and ~\ref{sim-DDNT1-theta-vs-y-zoom} (zoomed figure) the positron distribution decrease occures at
. Positrons are emitted from both the downstream and upstream side of the target. As shown in the figure, positrons from the downstream side of the target intersect the detector at angles below 45 degrees while positrons from the upstream side of the target begin to hit the detector at angles beyond 45 degrees. The 1.4 mm gap represents the transition of positrons between these two extremes.Cut off line is around 26.5 mm corresponding to the large angle.
DDNT1 is at 26.52 mm (53.04 mm)downstream of T1.
T1 radius is 25.4 mm (d=50.8 mm)
DDNT1 radius is 31.75 mm (d=63.5 mm).
Step 1: Generated Beam on DQ4
Positrons on detector right before Q4.
Step 1: Generated Beam on DD1
Positrons on detector right before D1 - first dipole.
Step 2: generate positron
The positrons after T1 is detected on a virtual detector. The positrons beam size, divergence and momentum distributions are extracted and created new positron beam.
Generate positron beam from the detector after T1 and transport it to right before D1.
219034780*100=21,903,478,000 positrons generated.
step 2: ratio
e+(DDNT1)/e+(DQ4) = 3536518400/47788670 = 74
e+(DDNT1)/e+(DD1) = 3536518400/5464220 = 647
e+(DQ4)/e+(DD1) = 8.7
Generated Beam on DQ4
Positrons on detector right before Q4.
Generated Beam on DD1
Positrons on detector right before D1 - first dipole.
Beam Compare Step1 and Step2
Compare at DD1 of S1 and S2
Step 1 | Step 2 | |
X profile | ||
Y profile | ||
X divergence profile | ||
Y divergence profile | ||
Energy |
S3
Counts | DD1UP | DD45 | DD2ND | DT2UP | DT2UP (Px>0) | DT2UP (Px>) |
1 MeV | 300 px | 300 px | ||||
2 MeV | ||||||
3 MeV | ||||||
4 MeV | ||||||
5 MeV |
Counts | DD1UP | DD45 | DD2ND | DT2UP | DT2UP (Px>0) | DT2UP (Px>) | dE/E |
1 MeV | |||||||
2 MeV | 0.3/2 = 15% | ||||||
3 MeV | 0.22/3 = 7% | ||||||
4 MeV | 4.42-3.64 = 20% | ||||||
5 MeV | 5.43-4.59 = 17% |
Checks
- Make delta function incident beams, does the dipole transport 100% of them
- Increase Delta E(1,3,5,10,20,40% of E), incident positrons are at 0 degrees, centered on dipole, plot loss as function of Delta E for 1,3,5 meV incident beam
- Next consider incident angle of positrons on the Quad
1 MeV
En @ DT2ND 300 px
En @ DT2ND 300 px
2 MeV
3 MeV
4 MeV
5 MeV
Dipole test
100 e+ shot to the entrance of D1.
Following table shows the number of e+ detected on each detectors.
Detector order is DD1UP->D45->DD2DN->DT2UP.
Q7 is off
dE/E | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.001 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.003 | 100->100->81->81 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.005 | 100->100->56->56 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->88 |
0.01 | 100->100->100->28 | 100->100->100->90 | 100->100->100->78 | 100->100->100->54 | 100->100->100->44 |
0.03 | 100->100->58->10 | 100->100->66->30 | 100->100->67->27 | 100->100->67->18 | 100->100->67->15 |
0.05 | 100->77->34->5 | 100->94->40->18 | 100->96->40->15 | 100->97->40->10 | 100->97->40->8 |
0.1 | 100->39->17->2 | 100->48->20->9 | 100->50->20->8 | 100->52->20->5 | 100->52->20->4 |
0.2 | 100->19->8->1 | 100->24->10->5 | 100->25->10->4 | 100->26->10->3 | 100->26->10->2 |
0.4 | 100->10->4->1 | 100->12->5->3 | 100->12->5->2 | 100->13->5->1 | 100->13->5->1 |
0.495 | 100->8->3->1 | ||||
0.5 | - | 100->10->4->1 | 100->10->4->1 | 100->10->4->1 | 100->10->4->1 |
0.6 | - | 100->8->3->1 | 100->8->3->1 | 100->8->3->1 | 100->8->3->1 |
0.7 | - | 100->7->3->1 | 100->7->3->1 | 100->8->3->1 | 100->8->3->1 |
Search Q7 for max MeV Transmission
Find Q7 current so transmission max is like experiment (3 meV)
Q7 Current | dE/E | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 A | 0.01 | 100->100->100->28 | 100->100->100->90 | 100->100->100->78 | 100->100->100->54 | 100->100->100->44 |
0.5 A | 0.01 | 100->100->100->51 | 100->100->100->100 | 100->100->100->89 | 100->100->100->59 | 100->100->100->47 |
1 A | 0.01 | 100->100->100->100 | 100->100->100->100 | 100->100->100->99 | 100->100->100->65 | 100->100->100->51 |
2 A | 0.01 | 100->100->100->41 | 100->100->100->100 | 100->100->100->100 | 100->100->100->82 | 100->100->100->61 |
Q7 Current | dE/E | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 A | 0.03 | 100->100->58->10 | 100->100->66->30 | 100->100->67->27 | 100->100->67->18 | 100->100->67->15 |
1 A | 0.03 | 100->100->100->84 | 100->100->100->48 | 100->100->89->34 | 100->100->82->22 | 100->100->79->17 |
Q7 Current | dE/E | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 A | 0.1 | 100->39->17->2 | 100->48->20->9 | 100->50->20->8 | 100->52->20->5 | 100->52->20->4 |
1 A | 0.1 | 100->39->37->27 | 100->49->32->14 | 100->50->27->10 | 100->52->25->7 | 100->52->23->5 |
2 A | 0.1 | 100->39->24->4 | 100->49->46->34 | 100->50->39->14 | 100->52->31->8 | 100->52->28->7 |
3 A | 0.1 | 100->39->12->3 | 100->49->48->48 | 100->50->47->25 | 100->52->44->10 | 100->52->35->7 |
4 A | 0.1 | 100->39->9->1 | 100->50->44->24 | 100->50->49->45 | 100->52->48->16 | 100->52->45->10 |
5 A | 0.1 | 100->39->7->1 | 100->50->27->13 | 100->51->50->46 | 100->52->49->34 | 100->52->49->14 |
6 A | 0.1 | 100->39->5->1 | 100->50->19->10 | 100->52->48->27 | 100->52->50->50 | 100->52->49->23 |
Q7 Current | dE/E | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 A | 0.2 | 100->19->8->1 | 100->24->10->5 | 100->25->10->4 | 100->26->10->3 | 100->26->10->2 |
1 A | 0.2 | 100->19->19->14 | 100->25->16->7 | 100->25->14->5 | 100->26->12->3 | 100->26->12->3 |
2 A | 0.2 | 100->19->12->2 | 100->25->23->17 | 100->25->20->7 | 100->26->16->4 | 100->26->14->3 |
3 A | 0.2 | 100->19->6->2 | 100->25->24->24 | 100->25->23->13 | 100->26->22->5 | 100->26->18->3 |
4 A | 0.2 | 100->19->4->0 | 100->25->22->12 | 100->25->23->23 | 100->26->24->8 | 100->26->22->5 |
5 A | 0.2 | 100->19->4->0 | 100->25->14->7 | 100->26->25->23 | 100->26->25->17 | 100->26->25->7 |
6 A | 0.2 | 100->19->2->0 | 100->25->9->5 | 100->26->24->14 | 100->26->25->25 | 100->26->25->12 |
X' effect on transmission
Set dE/E = 0 and change x-prime
Q7 Current=0
X'(rad) | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0.001 | 100->100->100->96 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.003 | 100->100->100->60 | 100->100->100-> 88 | 100->100->100->99 | 100->100->100->98 | 100->100->100->98 |
0.005 | 100->94->94->39 | 100->94->92-> 67 | 100->94->92->87 | 100->95->91->84 | 100->95->91->84 |
0.01 | 93->69->69->21 | 91->67->64-> 36 | 91->68->64->59 | 91->68->62->54 | 91->66->61->50 |
0.03 | 41->25->25->8 | 41->24->22-> 12 | 43->25->24->20 | 43->25->22->19 | 41->24->21->18 |
0.05 | 27->16->16->5 | 26->15->14-> 8 | 27->18->16->14 | 26->16->14->11 | 24->13->12->9 |
Q7 is at 10 A
dE/E | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 | 100->100->100->0 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.001 | 100->100->100->7 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.003 | 100->100->86->24 | 100->100->100->87 | 100->100->100->100 | 100->100->100->100 | 100->100->100->100 |
0.005 | 100->100->72->15 | 100->100->100->72 | 100->100->100->95 | 100->100->100->100 | 100->100->100->100 |
0.01 | 100->100->37->7 | 100->100->85->45 | 100->100->100->73 | 100->100->100->76 | 100->100->100->95 |
0.03 | 100->100->12->2 | 100->100->31->15 | 100->100->58->26 | 100->100->92->32 | 100->100->100->55 |
0.05 | 100->79->8->2 | 100->95->18->9 | 100->96->35->15 | 100->97->64->20 | 100->97->94->33 |
0.1 | 100->39->4->1 | 100->50->9->5 | 100->51->18->8 | 100->52->32->10 | 100->52->49->17 |
0.2 | 100->19->2->0 | 100->25->4->2 | 100->26->9->4 | 100->26->16->5 | 100->26->24->9 |
0.4 | 100->10->1->0 | 100->12->2->1 | 100->13->4->2 | 100->13->8->2 | 100->13->12->5 |
S3: transmission efficiency
Q7 effects on transmission efficiency
287,187,580 e+ started on the entrance of D1.
287,187,580 e+ ->DD1UP->D45->DD2DN->DT2UP
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
3.5 A | 1.397606e+8 ->372,799->14,023->211 | 1.397651e+8 ->2,565,113 ->423,855 -> 15,880 | 1.396887e+8 ->5,875,882 -> 1,229,176 -> 29,033 | 1.398474e+8 -> 5,136,409-> 925,689-> 24,525 | 1.399909e+8 -> 4,829,786 -> 842527->24,270 |
4 A | 1.39766 e+8 -> 372,822 -> 10,489 -> 144 | 1.397609 e+8 -> 2,562,350 -> 376,893 -> 11,395 | 1.396925 e+8 -> 5,878,246 -> 1,236,380 -> 28,788 | 1.398244 e+8 -> 5,134,603 -> 943,772 -> 24,351 | 1.399884 e+8 -> 4,831,365 -> 862,823 -> 21,619 |
4.5 A | 1.397694e+8 ->371,717->8,133->122 | 1.397624e+8 ->2,568,162->328,002->8,340 | 1.396864e+8 ->5,879,573->1,215,941->28060 | 1.39825e+8 ->5,133,561->955,976->23,687 | 1.399705e+8 ->4,835,046->877,511->21,117 |
5 A | 1.397738 e+8 -> 373,758 -> 6,682 -> 102 | 1.397676 e+8 -> 2,569,453 -> 276,527 -> 6,133 | 1.396864 e+8 -> 5,880,665 -> 1,160,296 -> 26,523 | 1.398232 e+8 -> 5,134,971 -> 962,467 -> 23,238 | 1.399815 e+8 -> 4,837,973 -> 890,292 -> 20,894 |
5.5 A | 1.397576 e+8 -> 373106 -> 5635 -> 91 | 1.397755 e+8 -> 2569892 -> 231582 -> 4816 | 1.396929 e+8 -> 5882742 -> -> 25479 | 1.398403 e+8 -> 514112 -> 961255 -> 22746 | 1.399873 e+8 -> 4834026 -> 899850 -> 20798 |
511 keV photons at NaI Left and NaI Right. NaIL:NaIR.
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 A | 4:4 | 22:20 | 42:51 | 62:60 | 57:42 |
1 A | 2:5 | 24:26 | 53:50 | 54:50 | 61:49 |
2 A | 0:3 | 50:57 | 50:66 | 68:46 | 72:46 |
3 A | 0:0 | 38:57 | 49:54 | 70:51 | 53:26 |
3.5 A | 1:1 | 31:36 | 56:67 | 53:45 | 52:30 |
4 A | 0:0 | 25:22 | 55:83 | 67:51 | 68:49 |
4.5 A | 0:0 | 17:16 | 54:68 | 60:59 | 59:49 |
5 A | 0:0 | 19:15 | 54:63 | 59:53 | 55:44 |
5.5 A | 1:1 | 16:12 | 51:66 | 70:41 | 66:39 |
10 A | 0:0 | 14:4 | 20:15 | 57:34 | 68:39 |
15 A | 1:1 | 9:1 | 17:7 | 34:7 | 48:39 |
20 A | 1:1 | 5:5 | 23:6 | 29:9 | 39:13 |
A | : | : | : | : | : |
Normalized
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
3.5 A | 0.007268 | 0.546964 | 1 | 0.844728 | 0.835945 |
4 A | 0.005002 | 0.395825 | 1 | 0.845873 | 0.750973 |
4.5 A | 0.004348 | 0.297220 | 1 | 0.844155 | 0.752566 |
5 A | 0.003846 | 0.231233 | 1 | 0.876145 | 0.787769 |
5.5 A | 0.003572 | 0.189018 | 1 | 0.892735 | 0.816280 |
e+ Annihilation Efficiency
S5 test 1
(100,000 e+ shot)->(photons on NaI Left):(photons on NaI Right)-> (e+ at DT2ND)
dispersion=10/1000 sigX=0.1 sigY=0.1 sigXp=0 sigYp=0 XP=0 YP=0
Runs | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
1 | 100000->6581:10135->575 | 100000->6841:10575->577 | 100000->7891:11389->636 | 100000->8849:12159->640 | 100000->10191:12699->647 |
1 | 1000->66:101->5.75 | 1000->68:106->5.77 | 1000->79:114->6.36 | 1000->89:122->6.4 | 1000->102:127->6.47 |
Runs | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
1 | 6581:10135 | 6841:10575 | 7891:11389 | 8849:12159 | 10191:12699 |
NaI Right | 0.79809 | 0.83274 | 0.89684 | 0.95745 | 1 |
NaI Left | 0.64577 | 0.67128 | 0.77431 | 0.86832 | 1 |
S5 test 2
dispersion=0/1000 sigX=0 sigY=0 sigXp=0 sigYp=0 XP=0 YP=0
Runs | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
2 | 100000->6567:10164->572 | 100000->7014:10575->536 | 100000->7752:11162->601 | 100000->8984:11995-> 630 | 100000->10018:12518->677 |
2 | 1000->65.77:101.64->5.72 | 1000->70.14:105.75->5.36 | 1000->77.52:111.62->6.01 | 1000->89.84:119.95-> 6.30 | 1000->100.18:125.18->6.77 |
Which Q7 Current to Chose
Ratio of Positron Rate to Electron Rata
The measured ratio of positron to electron ratio is given the following table and figure.
Energy (MeV) | Positron to Electron Ratio | Normalize to the peak |
1 | 0.02289 | |
2 | 0.08313 | |
3 | 1 | |
4 | 0.50602 | |
5 | 0.07470 |
Compounding Q7 and Annihilation Efficiency
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
3.5 A | 0.007268 | 0.546964 | 1 | 0.844728 | 0.835945 |
4 A | 0.005002 | 0.395825 | 1 | 0.845873 | 0.750973 |
4.5 A | 0.004348 | 0.297220 | 1 | 0.844155 | 0.752566 |
5 A | 0.003846 | 0.231233 | 1 | 0.876145 | 0.787769 |
5.5 A | 0.003572 | 0.189018 | 1 | 0.892735 | 0.816280 |
Runs | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
NaI Left | 0.64577 | 0.67128 | 0.77431 | 0.86832 | 1 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
3.5 A | 0.007268*0.64577 | 0.546964*0.67128 | 1*0.77431 | 0.844728*0.86832 | 0.835945*1 |
4 A | 0.005002*0.64577 | 0.395825*0.67128 | 1*0.77431 | 0.845873*0.86832 | 0.750973*1 |
4.5 A | 0.004348*0.64577 | 0.297220*0.67128 | 1*0.77431 | 0.844155*0.86832 | 0.752566*1 |
5 A | 0.003846*0.64577 | 0.231233*0.67128 | 1*0.77431 | 0.876145*0.86832 | 0.787769*1 |
5.5 A | 0.003572*0.64577 | 0.189018*0.67128 | 1*0.77431 | 0.892735*0.86832 | 0.816280*1 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
3.5 A | 0.004693 | 0.367166 | 0.77431 | 0.733494 | 0.835945 |
4 A | 0.003230 | 0.265709 | 0.77431 | 0.734488 | 0.750973 |
4.5 A | 0.002808 | 0.199518 | 0.77431 | 0.732997 | 0.752566 |
5 A | 0.002484 | 0.199518 | 0.77431 | 0.760774 | 0.787769 |
5.5 A | 0.002307 | 0.126884 | 0.77431 | 0.775180 | 0.816280 |
Require Same Event Number
Energy (MeV) | Positron to Electron Ratio | Normalize to the peak |
1 | 0.02289 | |
2 | 0.08313 | |
3 | 1 | |
4 | 0.50602 | |
5 | 0.07470 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
3.5 A | 3 | 458 | 752 | 628 | 485 |
3.5 A | 0.004 | 0.61 | 1 | 0.83 | 0.64 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
0 A | 19 | 233 | 483 | 484 | 474 |
0 A | 0.04 | 0.48 | 1 | 1 | 0.98 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
10 A | 0 | 34 | 197 | 400 | 436 |
10 A | 0 | 0.08 | 0.45 | 0.92 | 1 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
5 A | 3 | 155 | 695 | 545 | 502 |
5 A | 0.004 | 0.22 | 1 | 0.78 | 0.72 |
Q7 | 1 MeV | 2 MeV | 3 MeV | 4 MeV | 5 MeV |
5 A | 1 | 66 | 508 | 555 | 489 |
5 A | 0.002 | 0.12 | 0.92 | 1 | 0.88 |
overlay positron energy distribution at T1 with what is seen at T2 for several values of Q7
Efficiency
NaI Efficiency
Detector Efficiency: Media:SAINT-GOBAIN_3M33_Efficiency.PDF
Detector Efficiency: Media:SAINT-GOBAIN_Efficiency.PDF
At 511 keV, NaI crystals has 68% efficiency. If they are in coincidence, their efficiency is 68% * 68% =46.24%.
Siumlated results
s1: 13,799,743,800 e- (z=-260 mm) ---> 10951790 e+ Detected at DDNT1 (z=970 mm).
s2: 21,903,478,000 e+ at DDNT1 --> 5464220 e+ detected at DD1 (entrance of D1.)
s3: 14,359,380,000 e+ at DD1 --> 511 gamma detected on (NaIR && NaIL) table below
step | generated particle | detected | x times more e+ generated than previous step | ||
s1 | 13,799,743,800 e- | 10,951,790 e+ @ DDNT1 | 62,780 e+ @ DQ4 and 6742 e+ @ DD1 | ||
s2 | 21,903,478,000 e+ @ DDNT1 | 5,464,220 e+ @ DD1 | 143,039,300 e+ @ DQ4 | 21,903,478,000/10,951,790 = 1999.99068645 | |
s3 | 14,359,380,000 e+ @ DD1 | e+ @ DT2DN | 14,359,380,000/5,464,220 = 2627.89199556 | ||
s2*s3 | (21,903,478,000/10,951,790)*(14,359,380,000/5,464,220) = 5255759.51613 |
DDNT1:21,903,478,000*14,359,380,000/5,464,220 ->DQ4:143,039,300*14,359,380,000/5,464,220 -> DD1:14,359,380,000
DDNT1:57,559,974,511,209.3->DQ4:375,891,831,521 ->DD1:14,359,380,000
Q7 = 3.5 A | 1.015 MeV | 1.5 MeV | 2.15 MeV | 2.5 MeV | 3 MeV | 3.5 MeV | 4.02 MeV | 4.5 MeV | 5 MeV | 5.5 MeV |
NaIR && NaIL | 13 | 114 | 1032 | 1118 | 1054 | 1025 | 1020 | 961 | 848 | 765 |
NaIR && NaIL,B_D2*0.95 | 3 | 33 | 48 | 132 | 397 | 411 | 483 | 430 | 426 | 360 |
NaIR && NaIL,B_D2*1.05 | 6 | 219 | 192 | 483 | 666 | 658 | 638 | 540 | 600 | 520 |
NaIR && NaIL,B_D2*1.05 | 2 | 30 | 64 | 290 | 464 | 503 | 497 | 462 | 448 | 463 |
Q7 = 3.5 A | 1.015 MeV | 1.5 MeV | 2.15 MeV | 2.5 MeV | 3 MeV | 3.5 MeV | 4.02 MeV | 4.5 MeV | 5 MeV | 5.5 MeV |
R | 1.7924079e-16 | 1.5718038e-15 | 1.4228961e-14 | 1.5414708e-14 | 1.4532292e-14 | 1.4132447e-14 | 1.4063508e-14 | 1.3250031e-14 | 1.1692014e-14 | 1.0547631e-14 |
R | 0.18e-15 | 1.57-15 | 14.23e-15 | 15.41e-15 | 14.53e-15 | 14.13e-15 | 14.06e-15 | 13.25e-15 | 11.69e-15 | 10.54e-15 |
simulation after considering detector efficiency
Q7 = 3.5 A | 1.015 MeV | 1.5 MeV | 2.15 MeV | 2.5 MeV | 3 MeV | 3.5 MeV | 4.02 MeV | 4.5 MeV | 5 MeV | 5.5 MeV |
NaIR && NaIL | 13*46.24% | 114*46.24% | 1032*46.24% | 1118*46.24% | 1054*46.24% | 1025*46.24% | 1020*46.24% | 961*46.24% | 848*46.24% | 765*46.24% |
NaIR && NaIL,B_D2*0.95 | 3*46.24% | 33*46.24% | 48*46.24% | 132*46.24% | 397*46.24% | 411*46.24% | 483*46.24% | 430*46.24% | 426*46.24% | 360*46.24% |
NaIR && NaIL,B_D2*1.05 | 6*46.24% | 219*46.24% | 192*46.24% | 483*46.24% | 666*46.24% | 658*46.24% | 638*46.24% | 540*46.24% | 600*46.24% | 520*46.24% |
Q7 = 3.5 A || 1.015 MeV || 1.5 MeV || 2.15 MeV || 2.5 MeV || 3 MeV || 3.5 MeV || 4.02 MeV || 4.5 MeV || 5 MeV || 5.5 MeV NaIR && NaIL || 6.0112 || 52.7136 || 477.1968 || 516.9632|| 487.3696 || 473.96 || 471.648 || 444.3664|| 392.1152 || 353.736 NaIR && NaIL,B_D2*0.95 || 1.3872 || 15.2592 || 22.1952 || 61.0368 || 183.5728 || 190.0464 || 223.3392 || 198.832 || 196.9824 || 166.464 NaIR && NaIL,B_D2*1.05 || 2.7744 || 101.2656 || 88.7808 || 223.3392|| 307.9584 || 304.2592 || 295.0112 || 249.696 || 277.44 || 240.448
Transmission Efficiency to DUPT2
Detector | 1.015 MeV | 1.5 MeV | 2.15 MeV | 2.5 MeV | 3 MeV | 3.5 MeV | 4.02 MeV | 4.5 MeV | 5 MeV | 5.5 MeV |
DT2UP |