5252017 Anal
LB_May_2017_Irradiation_Day#5.2F25.2F17
10% Se mixed with Sage leaf ash
Mass of each sample
M_{mix} =
M_{Se} =
M_{Ash}=
Lines for investigation
Found lines from Sage at energies of 147,250,389,1267,1369,1517,2169 and 2755 keV, All seem to have half lines longer than 1 hr.
Compare to Background lines measured at
https://wiki.iac.isu.edu/index.php/PAA_BackGrd_Det_A
Possible sources for the lines
- Mg-25(\gamma,p)Na-24
- :1369, 2755 keV ::T1/2=15 hrs
File:SageBrushMg-vs-VolOil Powell.pdf
- Air
- :250, 1267, 1517 keV - Ar-40
147 keV - not sure. Depending on what other lines are there, could be Ag-36, Cl-35, Kr-78
389 keV Sr-88, depending on what else is there
2169 keV - don't know
Time cuts for analysis
0-300 (Sage + Se 10% Se by weight) 300-360 (Co-60) 400-640 ( Pure Se) 680-710 (Co-60) 730-1020 (Mixture) 1030-1080 (Co-60) 1100-1360 ( Pure Se) 1400-1440 (Co-60) 1480-1775 (Mixture) 1800-1840 (Co-60) 1875-2150 (Pure Se) 2190-2220 (Co-60) 2250-2550 (Mixture) 2590-2620 (Co-60) 2650-2930 (Pure Se) 2950-3000 (Co-60) 3050-3300 (Mixture) 3390-3350 (Co-60) 3400-3690 (Pure Se) 3700-3750 (Co-60) 3775-4050 (Mixture) 4060-4100 (Co-60) 4120-4400 (Pure Se) 4420-4470 (Co-60) 4480-4770 (Mixture) 4790-4820 (Co-60) 4840-5130 (Pure Se)
Analysis Code
#define TenPercSeInSage_cxx #include "TenPercSeInSage.h" #include <TH2.h> #include <TStyle.h> #include <TCanvas.h> void TenPercSeInSage::Loop() { // In a ROOT session, you can do: // root> .L TenPercSeInSage.C // root> TenPercSeInSage t // root> t.GetEntry(12); // Fill t data members with entry number 12 // root> t.Show(); // Show values of entry 12 // root> t.Show(16); // Read and show values of entry 16 // root> t.Loop(); // Loop on all entries // // This is the loop skeleton where: // jentry is the global entry number in the chain // ientry is the entry number in the current Tree // Note that the argument to GetEntry must be: // jentry for TChain::GetEntry // ientry for TTree::GetEntry and TBranch::GetEntry // // To read only selected branches, Insert statements like: // METHOD1: // fChain->SetBranchStatus("*",0); // disable all branches // fChain->SetBranchStatus("branchname",1); // activate branchname // METHOD2: replace line // fChain->GetEntry(jentry); //read all branches //by b_branchname->GetEntry(ientry); //read only this branch if (fChain == 0) return; Long64_t nentries = fChain->GetEntriesFast(); Long64_t nbytes = 0, nb = 0; TH1F *Mix=new TH1F("Mix","Mix",3000,0.5,3000.5); TH1I *Co60=new TH1I("Co60","Co60",3000,0.5,3000.5); TH1I *RCo60=new TH1I("RCo60","RCo60",3000,0.5,3000.5); TH1F *Se=new TH1F("Se","Se",3000,0.5,3000.5); TH1F *Se103=new TH1F("Se103","Se103",3600,0,60); // Se-81 emmitts 103 keV photon and half life is 57.28 min TRandom3 R; Float_t Energy; Int_t IEnergy; for (Long64_t jentry=0; jentry<nentries;jentry++) { Long64_t ientry = LoadTree(jentry); if (ientry < 0) break; nb = fChain->GetEntry(jentry); nbytes += nb; // if (Cut(ientry) < 0) continue; // Convert Channels to keV // Energy= (Int_t) (1.02127*evt_Chan-13.2088); Energy= 1.02127*(evt_Chan)+(R.Rndm()-1)-13.2088; // The ADC may have a broken but so inject a half ADC c\ hannel of noise into the system I never say channel 247 plus others IEnergy= (Int_t) Energy; // if(Energy > 234 && Energy < 238) // cout << "evt_Chan=" << evt_Chan<< " Energy=" << Energy << " IEnergy = " << IEnergy << e\ ndl; // Mixture Events if ((evt_Sec>0 && evt_Sec <300) || ( evt_Sec > 730 && evt_Sec<1020 )|| ( evt_Sec > 1480 && evt_Sec<1775\ )|| ( evt_Sec > 2250 && evt_Sec<2550 )|| ( evt_Sec > 3050 && evt_Sec<3300 )|| ( evt_Sec > 3775 && evt_Sec<4\ 050 )|| ( evt_Sec > 4480 && evt_Sec<4770)) { Mix->Fill(Energy,0.0005); // measure Mix sample for 2000 seconds } //Co-60 Events lines at 1173 and 1332 keV if( (evt_Sec > 300 && evt_Sec <360 ) || ( evt_Sec> 680 && evt_Sec <710 ) || ( evt_Sec> 1030 && evt_Sec <1080 ) || ( evt_Sec> 1400 && evt_Sec <1440 ) || ( evt_Sec> 1800 && evt_Sec <1840 ) || ( evt_Sec> 2190 && evt_Sec <2220 ) || ( evt_Sec> 2590 && evt_Sec <2620 ) || ( evt_Sec> 2950 && evt_Sec <3000 ) || ( evt_Sec> 3390 && evt_Sec <3350 ) || ( evt_Sec> 3700 && evt_Sec <3750 ) || ( evt_Sec> 4060 && evt_Sec <4100 ) || ( evt_Sec> 4420 && evt_Sec <4470 ) || ( evt_Sec> 4790 && evt_Sec <4820 )) { // Co60->Fill(IEnergy); // measure Mix sample for 2000 seconds Co60->Fill(evt_Chan); // measure Mix sample for 2000 seconds RCo60->Fill(Energy); // measure Mix sample for 2000 seconds } // Pure Se events measured for 1915 seconds if( ( evt_Sec> 400 && evt_Sec <640 ) || ( evt_Sec > 1100 && evt_Sec <1360 ) || ( evt_Sec > 1875 && evt_Sec <2150 ) || ( evt_Sec > 2650 && evt_Sec <2930 ) || ( evt_Sec > 3400 && evt_Sec <3690 ) || ( evt_Sec > 4120 && evt_Sec <4400 ) || ( evt_Sec > 4840 && evt_Sec <5130)) { Se->Fill(Energy,0.0005221932); if(Energy>101 && Energy < 104) // half life = ln(2)/slope of exponential fit Se103->Fill(evt_Sec/60); // half life = ln(2)/[0.01172 +/- 0.00013 ] = 59.14 +/- 0.67 // expected half life = 57.28 min } } cout<< "Available Histograms" << " Se->Draw();" << endl << " Se103->Draw();" << endl << " Co60->Draw();" << endl << " RCo60->Draw();" << endl << " Mix->Draw();" << endl << endl; }