Difference between revisions of "LB SageBrushWork PostDefense"
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TTree* tree = MPA; | TTree* tree = MPA; | ||
− | MPA->Draw("evt.Chan:evt.Sec>>hist2","evt.ADCid = 1"); | + | MPA->Draw("evt.Chan:evt.Sec>>hist2","evt.ADCid == 1"); |
which produced the histogram below | which produced the histogram below | ||
[[File:LB 50 Percent SeSage TimeCutInfo.png|200px]] | [[File:LB 50 Percent SeSage TimeCutInfo.png|200px]] | ||
+ | |||
+ | |||
+ | ==0.1% Sage/Se Mixture Time Cuts== | ||
+ | The 0.1% Se/Sage mixture was measured on Detector A (shielded) on 5/24/17 for a total of 2130.540 seconds. The mixture was measured first, and a sub-run was roughly 300 seconds for the Se samples and 60 seconds for the Co-60 flag. The root commands used were | ||
+ | |||
+ | TTree* tree = MPA; | ||
+ | |||
+ | MPA->Draw("evt.Chan:evt.Sec>>hist2","evt.ADCid == 0"); | ||
+ | |||
+ | which produced the histogram below |
Revision as of 18:44, 27 August 2018
Time Cuts
The first step in the PAA process is to identify the time cuts used for the split run. This must be done for all samples (50%,10%,0.1%, and 0.04%) Let's do the 50% sample first
50% Sage/Se Mixture Time Cuts
The 50% Se/Sage mixture was measure on Detector B (unshielded, so watch the SNR) on 5/24/17 for a total of 2130.540 seconds. The outer pure witness Se was measure first, and sub-run was roughly 300 seconds for the samples of interest, and 60 seconds for the Co-60 flag. The root command used to draw the timing information was
TTree* tree = MPA;
MPA->Draw("evt.Chan:evt.Sec>>hist2","evt.ADCid == 1");
which produced the histogram below
0.1% Sage/Se Mixture Time Cuts
The 0.1% Se/Sage mixture was measured on Detector A (shielded) on 5/24/17 for a total of 2130.540 seconds. The mixture was measured first, and a sub-run was roughly 300 seconds for the Se samples and 60 seconds for the Co-60 flag. The root commands used were
TTree* tree = MPA;
MPA->Draw("evt.Chan:evt.Sec>>hist2","evt.ADCid == 0");
which produced the histogram below