using FINGER libprespecFINGER.so ##The lookup table for the finger: ##The mhtdc has the times of the 16 pmts of the finger followed by ##ch 16 : Sc21 left ch 17 : Sc21 right ##ch 18 : Sc41 left ch 19 : Sc41 right # 0 2 4 6 8 10 12 14 # __ __ __ __ __ __ __ # /\/ \/ \/ \/ \/ \/ \/ \ # # # \__/\__/\__/\__/\__/\__/\__/\/ # # 1 3 5 7 9 11 13 15 ##First we Preproc the 2 scintillators processor Finger/Sc41Preproc FINGER.MhTdcPreprocc # triggers 8 9 10 input[0] <- FingerCrate.mhtdc[18] #left input[1] <- FingerCrate.mhtdc[19] #right display diff 1,0.1,4096,200 | diff_gate in Sc41Preproc/diff display output 1,0.1,4096,200 in Sc41Preproc/output display multiplicity 16,0,16 end processor Finger/Sc21Preproc FINGER.MhTdcPreprocc #triggers 8 9 10 input[0] <- FingerCrate.mhtdc[16] input[1] <- FingerCrate.mhtdc[17] display diff 1,0.1,4096,200 | diff_gate in Sc21Preproc/diff display output 1,0.1,4096,200 in Sc21Preproc/output display multiplicity 16,0,16 end ##Now I preproc the Finger strips processor Finger/FingerMhTdcPreproc FINGER.MhTdcPreprocc #triggers 8 9 10 input[0:15] <- FingerCrate.mhtdc[0:15] display diff 1,0.1,4096,200 | diff_gate in FingerMhTdcPreproc/diff display output 2048,0,204.8 in FingerMhTdcPreproc/outputs display multiplicity 16,0,16 in FingerMhTdcPreproc/multiplicity display PMTmult 20,0,20 end ###########Now, another way to select hits. I will compare: ########### Sc41 right and Finger PMT 08 for $i in [00:15] processor Finger/HitSelectionStrip$i UTILS.TimeHitSelectionSc input_array[0] <- Finger/FingerMhTdcPreproc.output[$i] input_array[1] <- Finger/Sc41Preproc.output[1] display all_diff in HitSelection/Strip$i/all_diff display all_diff_cal 100,15,40 in HitSelection/Strip$i/all_diff_cal display diff_visu | time_gate in HitSelection/Strip$i/diff_gate display hit_mult 20,0,20 in HitSelection/Strip$i/multiplicity display SelectedTime 4096,-200,200 in HitSelection/Strip$i/Times display CalibratedTime 4096,-200,200 in HitSelection/Strip$i/Times end end ##Now I take the average of all of them per event. processor Finger/FingerTimeAverage UTILS.Average input[0] <- Finger/HitSelectionStrip00.CalibratedTime input[1] <- Finger/HitSelectionStrip01.CalibratedTime input[2] <- Finger/HitSelectionStrip02.CalibratedTime input[3] <- Finger/HitSelectionStrip03.CalibratedTime input[4] <- Finger/HitSelectionStrip04.CalibratedTime input[5] <- Finger/HitSelectionStrip05.CalibratedTime input[6] <- Finger/HitSelectionStrip06.CalibratedTime input[7] <- Finger/HitSelectionStrip07.CalibratedTime input[8] <- Finger/HitSelectionStrip08.CalibratedTime input[9] <- Finger/HitSelectionStrip09.CalibratedTime input[10] <- Finger/HitSelectionStrip10.CalibratedTime input[11] <- Finger/HitSelectionStrip11.CalibratedTime input[12] <- Finger/HitSelectionStrip12.CalibratedTime input[13] <- Finger/HitSelectionStrip13.CalibratedTime input[14] <- Finger/HitSelectionStrip14.CalibratedTime input[15] <- Finger/HitSelectionStrip15.CalibratedTime display array_average 4096,-200,200 display input in FingerTimeAverage/input 4000,0,200 end ##Now we compare the times processor Finger/TofTac_vs_TofFinger UTILS.Pair first <- Finger/FingerTimeAverage.array_average second <- Frs/TofSystem.tof display first:second 1000,150,550:1000,150,550 display first 2000,150,300 display second 2000,150,300 end ##Beta calculation processor Finger/BetaFinger FrsTofSystem tof_ll <- Finger/FingerTimeAverage.array_average tof_rr <- Finger/FingerTimeAverage.array_average display beta 1000,0,1 display tof 1000,150,350 end