FIRST ITERATION OF STRAWMAN TRIGGER, 6 April 1998 === All Samples, No Fiducial Cuts, L1Safe trigger, x10 occupancy ==== Sample Nevt L1A (1Y/Safe2) BhaID1Pr BhaID2Pr BhaVeto2Pr BhaVeto2Pr1Y L3Dch L3Emc Phys [1] [2] ------------------------------------------------------------------------------------------------------------ Cosmics 204 204 (0/193) 0 0 0 0 0 2 2 HebBmGas 214 214 (0/213) 0 0 0 0 57 16 70 LebBmGas 300 299 (0/279) 0 0 0 0 40 1 41 HebHad 300 300 (0/289) 0 0 0 0 1 9 10 LebHad 300 300 (0/285) 0 0 0 0 1 8 9 Vacuum 300 294 (159/24) 0 0 0 0 0 3 3 btodd1 300 300 (0/300) 0 0 0 0 298 284 300 btopipi1 300 300 (0/300) 0 0 0 0 300 186 300 gammapi+pi- 300 267 (0/222) 0 0 0 0 210 8 212 gammapi0pi0 300 239 (0/203) 0 0 0 0 16 167 172 qqbar_udscb 300 299 (0/296) 0 0 0 0 288 255 291 tautopipi 300 280 (1/236) 0 0 0 0 231 35 231 tautoemu 300 242 (4/203) 0 2 0 0 198 43 198 tautoee 300 254 (11/220) 7 15 2 0 210 68 209 widebhabha 300 211 (90/196) 62 121 110 47 195 175 85 -- Notes: [1] L1Accept is not the sum of 1Y and Safe2 because of overlap and because of the way the L3Trigger setup deals with L1. [2] 1Y/Safe2 gives numbers passing each of our two L3Input Lines === Physics/Bhabha Samples, Fiducial Cuts, L1Safe trigger, x10 occupancy ==== Sample Nevt(Fid) L1A ( 1Y/Safe2) BhaID1Pr BhaID2Pr BhaVeto2Pr BhaVeto2Pr1Y L3Dch L3Emc Phys [3] ------------------------------------------------------------------------------------------------------------ btodd1 300(300) 300 (0/300) 0 0 0 0 298 284 300 btopipi1 300(181) 181 (0/300) 0 0 0 0 181 125 181 gammapi+pi- 300(126) 126 (0/222) 0 0 0 0 115 0 115 gammapi0pi0 300( 60) 59 (0/203) 0 0 0 0 6 51 52 qqbar_udscb 300(300) 299 (0/296) 0 0 0 0 288 255 291 tautopipi 300(177) 177 (1/236) 0 0 0 0 165 32 165 tautoemu 300(171) 168 (4/203) 0 2 0 0 159 40 159 tautoee 300(300) 254 (11/220) 7 15 2 0 210 68 209 widebhabha[4] 300(105) 211 (90/196) 23 100 92 38 105 105 13 -- Notes: [3] L1Accept here counts only events satisfying fiducial cuts; thus, it is not the same number given in the no-fiducial table. [4] For widebhabhas, we do not know the number of L1A within fiducials; the total number is given. L3 Trigger Definitions for Above Tables InputLines : L1 line(s) required L3Input1Y : 1Y L3InputSafe2 : ( 2M & 1A ) + C2pss Filters : requirements 1-prongBhabha : exactly 1 track, match to EMT cluster, E/p > .5, Pcm > 4.5GeV 2-prongBhabha(loose): 1 or 2 tracks, 1 match to EMT cluster with E/p > .5, Pcm > 3GeV, Etot > 6GeV 2-prongBhabha(tight): 1 or 2 tracks, 1 match to EMT cluster with E/p > .5, Pcm > 4.5GeV, Etot > 7GeV L3Dch : 1 track from IP (+/- 5cm Z, +/- 7.5mm rphi), Pt > 300MeV L3Emc : (Nclus > 3 ) + ( Etot > 1.5GeV & dphi < 2 ) [phi strip threshold is 200MeV] Scripts : InputLine & Filter(s) L3BhaID1Pr : Input1Y & 1-prongBhabha L3BhaID2Pr : InputSafe2 & 2-prongBhabha(loose) L3BhaVeto2Pr : InputSafe2 & 2-prongBhabha(tight) L3BhaVeto2Pr1Y: Input1Y & 2-prongBhabha(tight) L3Dch : InputSafe2 & L3Dch L3Emc : InputSafe2 & L3Emc OutputLines : Scripts BhaID1Pr : L3BhaID1Pr BhaID2Pr : L3BhaID2Pr BhaVeto2Pr : L3BhaVeto2Pr BhaVeto2Pr1Y : L3BhaVeto2Pr1Y L3Dch : L3Dch L3Emc : L3Emc L3Phys : ( L3Dch + L3Emc ) & ( ! L3BhaVeto2Pr )