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Published byElvin Bennett Modified over 9 years ago
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Experimental Research on School of Physics, Peking University at the CMS Bo ZHU Motivation Results of MC Conclusion
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2 Heavy quarkonium for QCD testing NRQCD and pQCD for CDF quarkonium puzzle Polarization sources Direct Prompt ( ) (40%) B-Decay as a Test of NRQCD
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3 Traditional decay length method to distinguish prompt Detector resolution limitation High background from B-decay, maybe difficult since: Current Status of Integral Luminosity 10pb -1 High pt get worse No constrain 5-70.07(0.02)0.02(0.02) 7-100.09(0.01)0.02(0.01) 10-150.15(0.01)0.04(0.01) >150.23(0.02)0.06(0.02)
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4 Advantage of The channel is cleaner With an additional photon Small b hadrons decay branch ratio CMS experiment (CDF ) ECAL, MUON system (CDF ) ECAL MUONs
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5 NRQCD: Non-Relativistic QCD Quarkonium production: Generate Quark Pair Quark Pair involves into quarkonium Non-Relativistic: Heavy quark moves slowly in heavy quarkonium rest frame. With CSM and COM: Long Distance Matrix Element Probability of the quark pair binding to the quarkonium. Short Distance Coefficient: quark-antiquark pair created. independent of final product. Can be computed by pQCD
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6 Polarization Bernd A. Kniehl etc. PHYSICAL REVIEW D, VOLUME 62, 114027 polarization: From fragmenting gluon 100% transversally polarized from,
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7 Data sample CSM &COM, 800K Prompt, 3.7pb -1 370K, 12.8pb -1 Prompt branch ratio Decay Branch ratio Events from 1.3%10.4K 36%224K 20%120K 800K340K Data Samples ~40% prompt events are from decay
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8 Expecting Yield trigger rates at a Luminosity = 10 32 cm -2 s -1 Event SampleRate(Hz) Prompt ( )1.4(0.5) pp X (include b hadrons decay )1.1 ~10M events pass trigger in the first year. S.QIAN CMS B-physics meeting CERN 28/8/2007
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9 38K events normalized to 10pb -1 Only photon are reconstructed,(28%) ECAL acceptance: Angle can be used to decrease background in Generator Level cross section
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10 Sources of Background 1.b hadrons’ decay 2.General QCD, W+jets, Z+jets Sources of Background 1.b hadrons’ decay 2.General QCD, W+jets, Z+jets b-hadrons B0B0 7.1±1<194.3±10.6 B+B+ 8.9±1.4<0.461.8±8.6 B0sB0s -- 50±8.9 BCBC -- 20±4.1 b-baryon -- 4.7±2.8 Journal of Physics G: Review of Particle Physics, Vol 33 (2006), page 779 b hadrons’ decay branch ratio
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11 Use constrain mass range 2.9-3.3GeV/c 2 (GeV/c) Signal events No constrain No constrain 5-7 0.07(0.01)0.02(0.01)10894993862 7-10 0.10(0.01)0.03(0.01)176900161105 10-15 0.15(0.01)0.04(0.01)129576123384 >15 0.22(0.01)0.07(0.01)5343252151 >25 0.27(0.01)0.09(0.01)69706908 >5 0.13(0.01)0.04(0.01)468857430503 b hadrons to fraction Signal/Background for
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12 Use constrain mass range 2.9-3.3GeV/c 2 Number of photons <3 mass range 3.3-3.7GeV/c 2 (GeV/c) Signal events No constrain No constrain 5-7 0.07(0.02)0.02(0.02)25452135 7-10 0.09(0.01)0.02(0.01)60275489 10-15 0.15(0.01)0.04(0.01)48814602 >15 0.23(0.02)0.06(0.02)16751638 >5 0.14 (0.01)0.04(0.01)1516713864 b hadrons to fraction Signal/Background for
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13 No constrain 0.23(0.02)0.06(0.02) 0.22(0.01)0.07(0.01) b hadrons fraction in High Range >15GeV/c No constrain vs. >15GeV/c No constrain >15GeV/c
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14 Summary can be used on CMS to test NRQCD There will be about 10M event pass CMS trigger in the first year With the constrain of number of photon and, the signal of prompt is about 15 times of the number of B-decay background in high p T range (p T >15GeV/c). Future work Polarization study
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16 backup
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17 Fraction 0.21
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18 Number of photon In prompt chi_cj event Mean= Number of photon In B to J/Psi event Number of photon In prompt J/Psi event
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