Status of CBM muon studies I.Vassiliev, S.Gorbunov, I. Kisel and A.Kiseleva 16-Oct-06 Motivation Simulation tools cbmroot2 v06 Signal and background simulations new absorber materials, WFeC absorbers Tracking with thick absorbers J/ and , , reconstruction Low rapidity region coverage, momentum dependent tracking Summary
Motivation – NA60 experiment Sanja Damjanovic QM2005 Budapest, GSI 2006 ~ 1m Muon Spectrometer MWPC’s Trigger Hodoscopes Toroidal Magnet Iron wall Hadron absorber ZDC Target area beam Matching in coordinate and momentum space
Signal and Background simulation J/ BG: 10 4 central UrQmd events Signal: J/ , , and + - Y~ NA60 N ch ~190 central Y~ CBM N ch ~600 central
V. Baublis: Signal and Background simulation MC a) 120 cm of Fe equivalent b) SF ~ 20 per track c) LMVM bg unavoidable 2 GeV 6 GeV
Excellent tracking in the Sts detector exist L1 ACCUMULATED STAT : EVENTS Ref. Prim.efficiency Ref. Sec.efficiency Refsetefficiency Allsetefficiency Extra Prim.efficiency Extra Sec.efficiency Extraefficiency Cloneprobability Ghostprobability MC tracks/event found:525 CA Track Finder time:1.15 ( ) s/ev MAPS: Physical hits: 1063Hybrid: 633 MCPStrips:MCP: 2518 Background hits: hitsMCPS:2415 Total hits created: 2928True:2408 Lost hits: 31Fake:15897 Fake hits: 87
Muon track finding -- ++ Fe C MC points -> hits smeared with xy = 100 m Active Progressively Increasing Thickness Absorber z2tr < 50 µm zpv = 4 µm
Muon track finding -hit bg-hit estimated hit position APIT Absorber
Muon track finding -hit bg-hit estimated hit position
Muon track finding -hit bg-hit estimated hit position
Muon track finding -hit bg-hit estimated hit position W Reconstructed track: (NSts MCT + NMuch MCT ) > 70%
1 Step Hit 2 and 3 lost Thick absorber detectors n Steps All hits found 22 GEANT3 engine trajectory Tracking with thick absorber
Much detector C: 1.2 m W: 5 (cm) Fe: 10, 20, 30 (cm) Sts 16 active layers: (1+5*3) 7.1 nI, 43.4 X nI, 54.9 X 0 µ+µ+ µ-µ- no W W
Transport 1k central urqmd W Fe C Hits distribution 60/event particleReco- track/ev. p0.04 + K+K + -- 0.1 K-K - all0.38
Transport 1k central urqmd + + - + - Background – 29 events Eff = 15.6% Signal – 156 events
signal efficiencies 10k events
no cuts except track's χ 2 and hits # (16)! signal/background ratios S/B ~ 1/5 ( ) S/B ~ 1/25 ( ) S/B ~ 1/500 ( ) BG: 10 6 central urqmd events
RECO IM 13 &16 hits/track additional information min bias central
mid rapidity coverage
Variables and cuts. Cuts optimization J/ reconstruction variable Cut J/ Cut lmvm p1.0 GeV/c0.9 GeV/c ptpt 1.0 GeV/c0.23 GeV/c OA12 0 SP t [-2.4, -2.05] (GeV/c) 2 [-0.26, 0.13]
Variables and cuts. Cuts optimization (GeV/c) 2 SP t = p x1 * p x2 + p y1 * p y2
J/ reconstruction Geometry 150cm Fe equivalent BG: 10 8 central urqmd events S/B ~ 30 Eff = 13% Eff = 24%
Plastic scintillators wall MIP Eloss 2 MIP Eloss 3 MIP Eloss ++ -- other p (s) e-e- e-e- e-e- e+e+ MIPS! MIP e-e-
Summary Vector mesons reconstruction with CBM muon detector looks very promising Using W as an absorber material allows significantly reduce hit density for the first Much layers; J/ and especially needs more absorber material All helps, comments and suggestions are cordially welcome