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Impact parameter studies in μ+jet events

Impact parameter studies in μ+jet events. Data: p1014 and p1015 “mujets” files from Markus Klute for the top group (up to March 24) also use new trackfit µ+jet files from Suyong Choi and Onne Peters MC: 6000 Z  bb (p1015) 7000 cc inclusive (Pt>10, p100801)

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Impact parameter studies in μ+jet events

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  1. Impact parameter studies in μ+jet events • Data: p1014 and p1015 “mujets” files from Markus Klute for the top group (up to March 24) • also use new trackfit µ+jet files from Suyong Choi and Onne Peters • MC: 6000 Zbb (p1015) • 7000 cc inclusive (Pt>10, p100801) • 9000 qcd (Pt>10, p100801) • + 5000 qcd (Pt>20, p1015) Daniel Bloch + D.Gelé, S.Greder, I. Ripp-Baudot (IReS Strasbourg) (gives uds,g) D. Bloch (IReS Strasbourg)

  2. Selection criteria • At least one JCCB jet (standard cuts) • Primary vertex PVSEL with  3 tracks and -0.15<XPV<0.15 cm , -0.20<YPV<0.20 cm • For the data (not for the MC, due to the lack of statistics …) : 1 global muon with nseg  3, Pt  4 GeV / beam, dR<0.5 from jet axis • Use secondary vertices from SKRECO • Data tracks with SMT only (except new trackfit), MC tracks with SMT+CFT D. Bloch (IReS Strasbourg)

  3. muon pt / (jet+muon) axis (ptrel) b efficiency=3% c eff=0.2% (GeV) Data 30000 events light D. Bloch (IReS Strasbourg)

  4. Decay length in data and MC b 48% c 9% Probability to find a secondary vertex in jet (cm) light 4% Data 3% D. Bloch (IReS Strasbourg)

  5. Decay length significance b c light Data D. Bloch (IReS Strasbourg)

  6. Invariant mass at secondary vertices b c Mass of all tracks at secondary vertices in the same jet (GeV) light Data D. Bloch (IReS Strasbourg)

  7. Impact parameter significance Use only tracks with Pt  0.5 GeV and dca  1 mm b c Sign the dca using the PV-perigee and jet directions light Data D. Bloch (IReS Strasbourg)

  8. Impact parameter significance in Data all tracks D. Bloch (IReS Strasbourg)

  9. Impact parameter significance in Data tracks from primary vertex are removed D. Bloch (IReS Strasbourg)

  10. Impact parameter significance in Data on μ side opposite side (Δφ90°) ptrel<0.5 GeV red: positive tail yellow: negative tail 0.5<ptrel<1 1<ptrel<3 D. Bloch (IReS Strasbourg)

  11. removing tracks from primary vertex on μ side opposite side ptrel<0.5 0.5<ptrel<1 1<ptrel<3 D. Bloch (IReS Strasbourg)

  12. New track fit sample : dca SMT alone or SMT+ 7 CFT hits : σ = 60 µm SMT and 7 CFT hits : σ = 50 µm (cm) SMT only : σ = 100 µm all “old” p1014+p1015 µ+jet data : σ = 100 µm D. Bloch (IReS Strasbourg)

  13. New track fit : dca/error (wrong error ?) SMT alone or SMT+ 7 CFT hits : σ =1.8 SMT and 7 CFT hits : σ =1.6 SMT only : σ =2.5 all “old” p1014+p1015 µ+jet data : σ =2.6 D. Bloch (IReS Strasbourg)

  14. Summary Clear flight distance from b decay in muon+jet events (both on muon side and in opposite jet) Less easy to use other kinematic variables to tag b-decays (maybe mass at secondary vertex ?) D. Bloch (IReS Strasbourg)

  15. Invariant mass at secondary vertices b c zoom at low mass (GeV) light Data D. Bloch (IReS Strasbourg)

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