= WH channel = New signal samples: 128061 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=110 30k 128062 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=115 30k 128063 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=120 30k 128064 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=125 30k 128065 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=130 30k 128066 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=135 30k 128067 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=140 30k 128068 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=145 30k 128069 WH, W->lnu, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=150 30k Samples for cross checks and optimizations (Already in MC11a): WH->lnubb with 1-lepton filter (e/mu, pT>15GeV) 116590 WH, W->lnu, H->bb (l=e,mu,tau) with 1lep(e/mu 15GeV) Pythia mH=115 100k 116591 WH, W->lnu, H->bb (l=e,mu,tau) with 1lep(e/mu 15GeV) Pythia mH=120 100k 116592 WH, W->lnu, H->bb (l=e,mu,tau) with 1lep(e/mu 15GeV) Pythia mH=130 100k 116127 WH, W->inc, H->bb Herwig mH=120 30k - inclusive W decay WH Total = 600k = ZH->llbb channel = New signal samples: 128071 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=110 30k 128072 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=115 30k 128073 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=120 30k 128074 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=125 30k 128075 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=130 30k 128076 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=135 30k 128077 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=140 30k 128078 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=145 30k 128079 ZH, Z->ll, H->bb (l=e,mu,tau) Herwig++/PowHeg mH=150 30k Samples for cross check of new generator: 116312 ZH, Z->ll, H->bb (l=e,mu,tau) Pythia mH=115 30k 109350 ZH, Z->ll, H->bb (l=e,mu,tau) Pythia mH=120 30k 116314 ZH, Z->ll, H->bb (l=e,mu,tau) Pythia mH=130 30k 116128 ZH, Z->inclusive, H->bb Herwig mH=120 30k ZH->llbb Total = 390k = ZH->nunubb channel = New signal samples: 128081 Zh, Z->nunu, H->bb Herwig++/PowHeg mH=110 10k 128082 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=115 10k 128083 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=120 10k 128084 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=125 10k 128085 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=130 10k 128086 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=135 10k 128087 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=140 10k 128088 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=145 10k 128089 ZH, Z->nunu, H->bb Herwig++/PowHeg mH=150 10k Sample for cross check of new generator (already in MC11a): 109351 ZH, Z->nunu, H->bb Pythia mH=120 30k ZH->nunubb Total = 120k Signal Total = 1.1M = Background samples = New: - ZZ->vvqq - would be good to have 100k generated with e.g. Sherpa - maybe already exists - WW->lnuqq - xsec is 46pb: would be good to have about 50k-100k with lepton filter - maybe already exists = top = total~7.5M 105200 ttbar (1-lepton) MC@NLO xsec=144.12pb 15M - would be good to have at least 7.5M (10 x #evt for 5fb-1) 108340 - 108345, 108346 - single top MC@NLO = ZZ = total=150k 109294 ZZ->2l2q Pythia 0.841 pb 60k - already in MC11a 107108 ZZincllNp0 Alpgen 40k - already in MC11a 107109 ZZincllNp1 Alpgen 20k - already in MC11a 107110 ZZincllNp2 Alpgen 20k - already in MC11a 107111 ZZincllNp3 Alpgen 10k - already in MC11a = WZ = total=225k 105942 W+Z->qqll MC@NLO 11.147pb*BR 25k - already in MC11a - would be good to extend this to 100k 105972 W-Z->qqll MC@NLO 6.0394pb*BR 100k- already in MC11a 105940 W+Z->lnuqq MC@NLO 11.23 pb*BR 50k - already in MC11a - would be good to extend this to 100k 105970 W-Z->lnuqq MC@NLO 6.085 pb*BR 50k - already in MC11a = Wbb = total=920k These have only about 2x #evts for 5fb-1 - would be nice to increase 107280 WbbFullNp0_pt20 Alpgen 48 pb 475k - in production for MC11a 107281 WbbFullNp1_pt20 Alpgen 35 pb 200k - in production for MC11a 107282 WbbFullNp2_pt20 Alpgen 17 pb 175k - in production for MC11a 107283 WbbFullNp3_pt20 Alpgen 7.6pb 70k - in production for MC11a AtlfastII could be used to extend these samples to: MC11.107280.AlpgenJimmyWbbFullNp0_pt20.py 3,500,000 MC11.107281.AlpgenJimmyWbbFullNp1_pt20.py 2,500,000 MC11.107282.AlpgenJimmyWbbFullNp2_pt20.py 1,500,000 MC11.107283.AlpgenJimmyWbbFullNp3_pt20.py 500,000 = Wcc = total=650k 117284 WccFullNp0_pt20 Alpgen 128pb 250k - already in MC11a 117285 WccFullNp1_pt20 Alpgen 104pb 200k - already in MC11a 117286 WccFullNp2_pt20 Alpgen 52pb 100k - already in MC11a 117287 WccFullNp3_pt20 Alpgen 20pb 100k - already in MC11a = Zbb = total=900k 109525 Z->ee+jets+b/c (enhanced) Sherpa 787pb 300k - in production for MC11a 109526 Z->mumu+jets+b/c (enhanced) Sherpa 787pb 300k - in production for MC11a 109527 Z->tautau+jets+b/c (enhanced) Sherpa 787pb 300k - in production for MC11a = bb = total=9M 108405 bbmu15X PythiaB 4.5M - already in MC11a 108326 bbe15X PythiaB 4.5M - already in MC11a = cc = total=3M 106059 ccmu15X PythiaB 1.5M - already in MC11a 108327 cce15X PythiaB 1.5M - already in MC11a Signal = 1M bb = 9M cc = 3M top = 7M ZZ = 150k WZ = 225k Wbb = 920k Wcc = 650k Zbb = 900k Total = 23M