CTT for taus

1. CTT for taus preliminary studies Auguste Besson

2. CTT system • 5 subsystems • - CFT/CPSax • - STT • - CFT stereo • - CPS stereo • - FPS • 6 steps • - AFE • - MIX • - DFE. DFEA • - COL • - BC • - TM Auguste Besson

3. List of L1 CTT terms 28] =TNQ(2,L,4) 29] =TDL(SS,1) // (charged pair[SS,OS,NS]; momentum) 30] =TDL(SS,3) 31] =TDL(OS,1) 32] =TDL(OS,3) 33] =TDL(NS,1) 34] =TDL(NS,3) 35] =TIS(3) // (>=1 Isolated track with pT>5, 10 GeV) 36] =TIS(4) 37] =TDS(SS) // (charged pair) 38] =TDS(OS) 39] =THT(1) // (Fraction of total CFT doublets hit): 40] =THT(2) // 6/11/02 - the three thresholds are hard-coded in CTTT.cpp to be 5, 10 and 20% 41] =THT(3) 42] =TAC(<35) // (acoplanarity above below 35 sectors) 43] =TAC(>35) 44] =TIQ(1) // (If >=1 isolated track in quadrant i, with pT > 5 GeV) 45] =TIQ(2) 46] =TIQ(3) 47] =TIQ(4) 48] =TOC(1,1) // (number of octants above threshold, threshold in momentum bins) 49] =TOC(2,1) 50] =TOC(1,2) 51] =TOC(2,2) 52] =TTA(1) // (sectors with single cluster tau candidate) 53] =TTA(2) // (sectors with double cluster tau candidate) 54] =TIL // (ioslated track(s) with low home-sector occupancy) 1] =TTK(1,1) // (number of tracks; momentum[1,2,3,4 = 1.5,3,5,10 GeV]) 2] =TTK(1,2) 3] =TTK(1,3) 4] =TTK(1,4) 5] =TTK(2,1) 6] =TTK(2,2) 7] =TTK(2,3) 8] =TTK(2,4) 9] =TEL(L,1) (preshower deposition[L,H]; momentum) 10] =TEL(L,2) 11] =TEL(L,3) 12] =TEL(L,4) 13] =TPQ(1,1) // (number of low pt bin tracks with L deposition, quadrant) 14] =TPQ(1,2) 15] =TPQ(1,3) 16] =TPQ(1,4) 17] =TPQ(2,1) 18] =TPQ(2,2) 19] =TPQ(2,3) 20] =TPQ(2,4) 21] =TNQ(1,L,1) // (number of preshower clusters; quadrant) 22] =TNQ(1,L,2) 23] =TNQ(1,L,3) 24] =TNQ(1,L,4) 25] =TNQ(2,L,1) 26] =TNQ(2,L,2) 27] =TNQ(2,L,3)

4. trigsim • certification files: /prj_root/843/trigsim_1/cert • p13.03.00 release • p130300_wtaunu.root, p130300_ztautau.root, p130300_qcd.root,p130300_wenu.root. • 7 MC tau types: based on MC decays 1. = e +  2. =  +  3. =  +  (type 1) 4. =  +  + n 0 (type 2) 5. = 3 +  (type 3) 6. = 3 +  + n 0(type 3) 7. = other hadronic Reco types 1.  +  2. 1 trk+ n 0 3. more than 1 trk(3 prongs) Auguste Besson

5. efficiencies • 54 terms • QCD pT>20GeV • no acceptance cut black W red Z blue/dashed QCD green/dashed We efficiency bbterm number

6. W : efficiencies by MC tau type • 7 MC types. BBterms eff MCtau type 1 BBterms eff MCtau type 2 BBterms eff MCtau type 3 BBterms eff MCtau type 4 BBterms eff MCtau type 5 BBterms eff MCtau type 6 BBterms eff MCtau type 7 MCtau decay type Auguste Besson

7. W efficiency vs. QCD efficiency • terms: 3, 4, 35, 36,... • isolated track 44 - 47 =TIQ(i) (If >=1 isolated track in quadrant i, with pT > 5 GeV) W efficiency term number QCD efficiency

8. eff W-tau nu vs QCD eff MC 3 : W-tau nu vs QCD eff MC 4 : W-tau nu vs QCD eff MC 5 : W-tau nu vs QCD 3, 4, 35, 36 44-47 3, 4, 35, 36 44-47 3, 4, 6, 7, 11 4, 35, 36 44-47 Auguste Besson

9. Z   efficiency vs. QCD efficiency Z   efficiency term number QCD efficiency Auguste Besson

10. questions from a non expert • trigger terms : • tried to understand which terms could be interesting • some terms should be ‘’added‘’ • isolated track in quadrant • How combine calorimeter and CFT trigger ? Which level ? • L3tau information ? algorithms ? • Global approach or specific MC tau type ? • inputs/comments welcome and needed. Auguste Besson