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| − | = 3 MeV =
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| − | == 2 ways to calculate electron charge ==
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| − |
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| − | NE(Int_t ri, Int_t Reprate, Int_t calc_meth){
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| − | printf("%d %d \n",ri, Reprate);
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| − | if(ri==1) TFile *f = new TFile("C:/Users/sadiq/Documents/phd/Runs_Jul_2012/rootfiles/7-27-12/r3735.root");
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| − | else if(ri==2) TFile *f = new TFile("C:/Users/sadiq/Documents/phd/Runs_Jul_2012/rootfiles/7-27-12/r3737.root");
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| − | TTree *ntuple = (TTree*)f->Get("ntuple");
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| − | TH1F *f9=new TH1F("f9","ADC9",4000,0,4000);
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| − | TCanvas * c2 = new TCanvas("c2", "c2",600 ,500);
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| − | c2->cd();
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| − | Long64_t ne;
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| − | printf("%d \n", ne);
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| − | //method 1 is reprate times single pulse charge
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| | | | |
| − | === method 1=== | + | |
| − |
| + | = Hand calculation on electron rate = |
| − | Double_t Qp1=0,Qp2=0;
| + | |
| − | if(calc_meth == 1){
| + | At full current on Faraday cup 1 we have 1201 nVs/ADC channel. |
| − | //ntuple->Draw("ADC9*(1.22*1e-9)/50>>f9","1");
| + | |
| − | ntuple->Draw("ADC9>>f9");
| + | <math>\frac{1201~nVs}{50 \Omega} = 24~nAs = 24~nC</math> |
| − | //Qp2 = (f9->Integral())*(1.22*1e-9)/50; //charge calculate with method 2.
| + | |
| − | //f9->Fit("gaus");
| + | charge rate under 300 Reprate: <math>300 \times 24~nAs = 7200~nC = 7.2 \frac{\mu C }{ s}</math> |
| − | ADC9_fit_mean = f9->GetMean(1);
| + | |
| − | //ADC9_fit_mean = ADC9->GetMean(1);
| + | |
| − | printf("ADC9_fit_mean = %d \n",ADC9_fit_mean);
| + | <math> \frac{7.2 \times 10^{-6}\frac{ C }{ s}} {1.6 \times 10^{-19} C} = 4.5 \times 10^{13}</math> |
| − | Qp1 = ADC9_fit_mean*(1.22*1e-9)/50; //Qp: charge per pulse. The calibration: 1.22 (9nV s)/(ADC channel), 50 ohm Terminal.
| + | |
| − | printf("QP1=%g\n\n",Qp1);
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| − | printf("e- charge per pulse with method 1: %g\n",Qp1);
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| − | //printf("Reprate: %d\n",Reprate);
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| − | Qs=Reprate*Qp1; //Qs: Charge per second.
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| − | //printf("e- charge per second: %g\n",Qs);
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| − | ne=Qs/Q_e; //Ne: number of electrons per second.
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| − | }
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| | | | |
| | | | |
| − | === method 2===
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| − |
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| − | if(calc_meth == 2){
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| − | //ntuple->Draw("ADC9*(1.22*1e-9)/50>>f9","1");
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| − | ntuple->Draw("ADC9>>f9");
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| − | printf("%bin# Bin Content%d\n");
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| − | for(i=1; i<=4000; i++){
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| − | //for(i=0; i<=600; i++){
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| − | bin_content[i] = f9->GetBinContent(i);
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| − | //Qp2+=(i*(1.22*1e-9)/50)*bin_content[i];
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| − | Qp2+=i*bin_content[i]*(1.22*1e-9)/50;
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| − | //printf("%d %d %g \n",i,bin_content[i],Qp2);
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| − | }
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| − |
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| − | //printf("Integral = %d \n",f9->Integral());
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| − | //Qp2 = (f9->Integral())*(1.22*1e-9)/50; //charge calculate with method 2.
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| − | printf("QP2=%g\n\n",Qp2);
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| − | printf("total e- charge in this run with method 2: %g\n",Qp2);
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| − | //printf("Reprate: %d\n",Reprate);
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| − | Qs=Qp2; //Qs: Charge per second.
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| − | printf("e- charge per second: %g\n",Qs);
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| − | printf("e- charge: %g\n",Q_e);
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| − | ne=Qs/Q_e; //Ne: number of electrons per second.
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| − | printf("1. total number of electrons in this run: %g\n",ne);
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| − | }
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| − | printf("2. total number of electrons in this run: %g\n",ne);
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| − | c2->Close();
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| − | f->Close();
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| − | return(ne);
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| − | }
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| | | | |
| − | == results in 3 MeV == | + | = Data = |
| | | | |
| − | === results on 3 MeV ===
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| | | | |
| − | {| border="1"
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| | |- | | |- |
| − | |run in||run out || NaI Left: in sub out || NaI Right: in sub out|| NaI Left: overlap in and out || NaI Right: overlap in and out ||e- rate (Hz)||e+ rate (Hz)||e+/e+ ratop || e- current (A) | + | |3735||3736||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_sub_r3736_DL.png|100 px]] |
| | + | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_sub_r3736_DR.png|100 px]] |
| | + | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_ove_r3736_DL.png|100 px]] |
| | + | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_ove_r3736_DR.png|100 px]] |
| | |- | | |- |
| | + | |} |
| | + | |
| | + | Reprate = 300 Hz |
| | + | |
| | + | Run time = 1002 s |
| | + | |
| | + | Pulses = 301462 |
| | | | |
| − | |3735||3736
| + | Events = 9045 |
| | | | |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_sub_r3736_DL_1.png|100 px]]
| + | e- rate = 7.80042e+013 +- 2.25903e+012 (Hz) |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_sub_r3736_DR_1.png|100 px]]
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| | | | |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_over_r3736_DL_1.png|100 px]]
| + | e+ rate = 1.41748 +- 0.0376119 (Hz). |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3735_over_r3736_DR_1.png|100 px]]
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| | | | |
| − | || 1.17925e+012||0.255007||2.16244e-013||1.88937e-007
| + | e+/e-=1.81719e-014+-4.8238e-016. |
| | | | |
| | + | e- current:I_e- =6.26271e-006+-3.61937e-007 (A). |
| | + | |
| | + | e+/I_e-=1.4 Hz e+ / 6.3 \muA e- |
| | |- | | |- |
| | + | |3737||3736||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_sub_r3736_DL.png|100 px]] |
| | + | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_sub_r3736_DR.png|100 px]] |
| | + | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_ove_r3736_DL.png|100 px]] |
| | + | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_ove_r3736_DR.png|100 px]] |
| | + | |- |
| | + | |} |
| | + | |
| | + | Reprate = 300 Hz |
| | + | |
| | + | Run time = 1094 s |
| | + | |
| | + | Pulses = 329368 |
| | + | |
| | + | Events = 15361 |
| | + | |
| | + | e- rate = 1.36517e+014 +- 2.39286e+012 (Hz) |
| | | | |
| − | |3737||3736
| + | e+ rate = 1.60462 +- 0.0382982 (Hz). |
| | | | |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_sub_r3736_DL_1.png|100 px]]
| + | e+/e-=1.1754e-014+-2.8058e-016. |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_sub_r3736_DR_1.png|100 px]]
| + | |
| | + | e- current:I_e- =1.52232e-005+-3.83378e-007 (A). |
| | + | |
| | + | e+/I_e-=1.6 Hz e+ / 15 \muA e- |
| | | | |
| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_over_r3736_DL_1.png|100 px]]
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| − | ||[[File:hrrl_pos_27jul2012_data_ana_with_Cuts_r3737_over_r3736_DR_1.png|100 px]]
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| | | | |
| − | ||1.97625e+012||0.251467||1.27244e-013||3.1663e-007
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| | | | |
| − | |-
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| − | |}
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| | | | |
| − | === Hand calculation on electron rate ===
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| | | | |
| − | At full current on Faraday cup 1 we have 1201 nVs/ADC channel.
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| | | | |
| − | <math>\frac{1201~nVs}{50 \Omega} = 24~nAs = 24~nC</math>
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| | | | |
| − | charge rate under 300 Reprate: <math>300 \times 24~nAs = 7200~nC = 7.2 \frac{\mu C }{ s}</math>
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| | | | |
| | | | |
| − | <math> \frac{7.2 \times 10^{-6}\frac{ C }{ s}} {1.6 \times 10^{-19} C} = 4.5 \times 10^{13}</math>
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| | | | |
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| | [[https://wiki.iac.isu.edu/index.php/Beam_Test_Jul_27_2012 go back]] | | [[https://wiki.iac.isu.edu/index.php/Beam_Test_Jul_27_2012 go back]] |
Hand calculation on electron rate
At full current on Faraday cup 1 we have 1201 nVs/ADC channel.
[math]\frac{1201~nVs}{50 \Omega} = 24~nAs = 24~nC[/math]
charge rate under 300 Reprate: [math]300 \times 24~nAs = 7200~nC = 7.2 \frac{\mu C }{ s}[/math]
[math] \frac{7.2 \times 10^{-6}\frac{ C }{ s}} {1.6 \times 10^{-19} C} = 4.5 \times 10^{13}[/math]
Data
|-
|3735||3736||
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||100 px
||100 px
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|}
Reprate = 300 Hz
Run time = 1002 s
Pulses = 301462
Events = 9045
e- rate = 7.80042e+013 +- 2.25903e+012 (Hz)
e+ rate = 1.41748 +- 0.0376119 (Hz).
e+/e-=1.81719e-014+-4.8238e-016.
e- current:I_e- =6.26271e-006+-3.61937e-007 (A).
e+/I_e-=1.4 Hz e+ / 6.3 \muA e-
|-
|3737||3736||
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||100 px
||100 px
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|}
Reprate = 300 Hz
Run time = 1094 s
Pulses = 329368
Events = 15361
e- rate = 1.36517e+014 +- 2.39286e+012 (Hz)
e+ rate = 1.60462 +- 0.0382982 (Hz).
e+/e-=1.1754e-014+-2.8058e-016.
e- current:I_e- =1.52232e-005+-3.83378e-007 (A).
e+/I_e-=1.6 Hz e+ / 15 \muA e-
[go back]
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