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Search for Rare Decays of the B S Meson at the Tevatron Ralf Bernhard University of Zurich XLIst Rencontres de Moriond QCD 19 th March 2006
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -2- Outline Motivation for rare decays Tevatron CDF & DØ Detector Search for the Decay B s → μ + μ - Search for the Decay B s → μ + μ - Summary & Conclusions
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -3- Purely leptonic B decay B->l + l - decay is helicity suppressed FCNC SM: BR(B s -> ) ~ 3.4 10 -9 depends only on one SM operator in effective Hamiltonian, hadronic uncertainties small B d relative to B s suppressed by |V td /V ts | 2 ~ 0.04 if no additional sources of flavor violation reaching SM sensitivity: present limit for B s -> + - comes closest to SM value Br(B d l + l - )Br(B s l + l - ) l = e3.4 × 10 -15 8.0 × 10 -14 l= μ 1.0 × 10 -10 3.4 × 10 -9 l= τ 3.1 × 10 -8 7.4 × 10 -7 SM expectations: C.L. 90% Br(B d l + l - )Br(B s l + l - ) l = e< 6.1 ·10 -8 < 5.4 ·10 -5 l= μ < 8.3 ·10 -8 <1.5 x 10 -7 l= τ < 2.5%< 5.0% Current published limits:
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -4- Purely leptonic B decay excellent probe for many new physics models particularly sensitive to models w/ extended Higgs sector BR grows ~tan 6 in MSSM 2HDM models ~ tan 4 mSUGRA: BR enhancement correlated with shift of (g-2) also, testing ground for minimal SO(10) GUT models R p violating models, contributions at tree level (neutralino) dark matter … Two-Higgs Doublet models: R p violating:
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -5- Tevatron performance excellent performance of Tevatron in 2005 and early 2006 machine delivered more than 1500 pb -1 up to now !! recorded (DØ/CDF) 1.2/1.4 fb -1 record luminosity of 1.7 10 32 cm -2 /s in January 2006 high data taking efficiency ~85% current dataset reconstructed and under analysis ~1000 pb -1 compare with ~100 pb -1 Run I
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -6- CDF detector Silicon Tracker SVX up to | <2.0 SVX fast r- readout for trigger Drift Chamber 96 layers in | |<1 particle ID with dE/dx r- readout for trigger tracking immersed in Solenoid 1.4T Time of Flight → particle ID
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -7- DØ detector 2T Solenoid hermetic forward & central muon detectors excellent coverage | |<2 Fiber Tracker 8 double layers Silicon Detector up to | <2.5
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -8- B production at the Tevatron bb cross section orders of magnitude larger than at B-factories (4S) or Z σ (pp → bb) = 150 μ b at 2TeV σ (e + e - → Z → bb) = 7nb σ (e + e - → Υ (4S) → bb) = 1nb all kinds of b hadrons produced: B d, B s, B c, B**, b, b, … However: QCD background overwhelming, b- hadrons hidden in 10 3 larger background events complicated, efficient trigger and reliable tracking necessary crucial for B physics program: good vertexing & tracking triggers w/ large bandwidth, strong background rejection muon system w/ good coverage Lots going on in Si detector e.g., integrated cross sections for |y|<1: (B +, p T 6 GeV/c)~4 b
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -9- “classical” triggers: robust and quiet di-muon and single- muon triggers working horse for masses, lifetimes, rare decays etc. keys to B physics program at DØ “advanced” triggers using silicon vertex detectors exploit long lifetime of heavy quarks displaced track + leptons for semileptonic modes two-track trigger (CDF) – all hadronic mode two oppositely charged tracks with impact parameter p T (B) 5 GeV L xy 450 m Decay length L xy Triggers for B physics
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -10- Experimental search CDF: 780 pb -1 di-muon triggered data two separate search channels central/central muons central/forward muons extract B s and B d limit DØ: 240 pb -1 (update 300 pb -1 ) di-muon triggered data (limit) Combined sensitivity for 700 pb -1 of recorded data (300 pb -1 + 400 pb -1 ) both experiments: blind analysis to avoid experimenter’s bias side bands for background determination use B + -> J/ K + as normalization mode J/ -> cancels selection efficiencies blinded signal region: DØ: 5.160 < m < 5.520 GeV/c 2 ; ±2 wide, =90 MeV CDF: 5.169 < m < 5.469 GeV/c 2 ; covering B d and B s ; =25 MeV
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -11- Pre-selection Pre-selection DØ: 4.5 < m < 7.0 GeV/c 2 muon quality cuts p T ( )>2.5 GeV/c ( )| < 2 p T (B s cand.)>5.0 GeV/c good vertex Pre-Selection CDF: 4.669 < m < 5.969 GeV/c 2 muon quality cuts p T ( )>2.0 (2.2) GeV/c CMU (CMX) p T (B s cand.)>4.0 GeV/c (B s )| < 1 good vertex 3D displacement L 3D between primary and secondary vertex (L 3D )<150 m proper decay length 0 < < 0.3 cm e.g. DØ: about 38k events after pre-selection Potential sources of background: continuum Drell-Yan sequential semi-leptonic b->c->s decays double semi-leptonic bb-> X b/c-> x+fake fake + fake 300 pb -1
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -12- Optimization I DØ: optimize cuts on three discriminating variables angle between and decay length vector (pointing consistency) transverse decay length significance (B s has lifetime): L xy / σ (L xy ) isolation in cone around B s candidate Random Grid Search maximize /(1.+ B)
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -13- Optimization II CDF: discriminating variables pointing angle between and decay length vector isolation in cone around B s candidate proper decay length probability p( ) = exp(- Bs ) construct likelihood ratio to optimize on “expected upper limit”
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -14- Unblinding the signal region CDF: central/central: observe 1, expect 0.88 ± 0.30 Central/forward: observe 0, expect 0.39 ± 0.21 DØ ( 300 pb -1 ): observe 4, expect 4.3 ± 1.2 CDF
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -15- DØ Sensitivity 1f b -1 Expect 2.2 ± 0.7 background events Cut Values changed only slightly! Used in previous analysis Used now in addition! Obtain a sensitivity (w/o unblinding) w/o changing the analysis Combine “old” Limit with obtained sensitivity
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -16- Normalization relative normalization is done to B + -> J/ K + advantages: selection efficiency same high statistics BR well known disadvantages: fragmentation b->B u vs. b-> B s DØ: apply same values of discriminating cuts on this mode CDF: no likelihood cut on this mode 300 pb -1
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -17- Master equation R = BR(B d )/BR(B s ) is small due to |V td /V ts |^2 B + / Bs relative efficiency of normalization to signal channel Bd / Bs relative efficiency for B d -> versus B s -> events in B s search channel (for CDF~0, for DØ ~0.95) f s /f u fragmentation ratio (in case of B s limit) - use world average with 15% uncertainty
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -18- The present (individual) limits DØ mass resolution is not sufficient to separate B s from B d. Assume no B d contribution (conservative) CDF sets separate limits on B s & B d channels all limits below are 95% C.L. Bayesian incl. sys. error, DØ also quotes FC limit B d limit x3 better than published Babar limit w/ 111 fb -1 CDF B s -> 176 pb -1 7.5×10 -7 Published DØ B s -> 240 pb -1 5.1×10 -7 Published DØ B s -> 300 pb -1 4.0×10 -7 Prelim. DØ 700 pb -1 Prelim. Sensitivity CDF B s -> 364 pb -1 2.0×10 -7 Published CDF B s -> 780 pb -1 1.0×10 -7 Prelim. CDF B d -> 364 pb -1 4.9×10 -8 Published CDF B d -> 780 pb -1 3.0×10 -8 Prelim.
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -19- Search for B s -> + - long-term goal: investigate b -> s l + l - FCNC transitions in B s meson exclusive decay: B s -> + - SM prediction: short distance BR: ~1.6×10 -6 about 30% uncertainty due to B-> form factor 2HDM: enhancement possible, depending on parameters for tan and M H+ presently only one published limit CDF Run I: 6.7×10 -5 @ 95% C.L.
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -20- Search for B s -> + - DØ: 300 pb -1 of dimuon data normalize to resonant decay B s -> J/ cut on mass region 0.5 < M( ) < 4.4 GeV/c 2 excluding J/ & ’ two good muons, p t > 2.5 GeV/c two additional oppositely charged tracks p t >0.5 GeV/c for candidate in mass range 1.008 < M( ) < 1.032 GeV/c 2 good vertex p t (B s cand.) > 5 GeV/c non-resonant decay: cut out J/ and ’ Dilepton mass spectrum in b -> s l l decay J/ ’’
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -21- Search for B s -> + - Blind analysis: optimization with following variables in random grid search Pointing angle Decay length significance Isolation Background modeled from sidebands Use resonant decay B s -> J/ with same cuts as normalization Gaussian fit with quadratic background: 73 ± 10 ± 4 B s -> J/ resonant decays
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -22- Limit on B s -> + - expected background from sidebands: 1.6 ± 0.4 events observe zero events in signal region BR(B s -> )/BR(B s -> J ) < 4.4 × 10 -3 @ 95% C.L. Using central value for BR(B s -> J ) = 9.3×10 -4 PDG2004: BR(B s -> ) < 4.1×10 -6 @ 95% C.L. x10 improvement w.r.t previous limit
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -23- Conclusions CDF & DØ provide world best limits on purely leptonic decays B d,s -> limit important to constrain new physics With more statistics to come enhance exclusion power/discovery potential for new physics Improved DØ limit on exclusive B s -> + - decay shown, about 2x above SM Tevatron is doubling statistics every year - stay tuned for many more exciting results on B physics R. Dermisek et al., hep-ph/0507233 (2005)
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -24- SPARE
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -25- Future Prospects for B s -> assuming unchanged analysis techniques and reconstruction and trigger efficiencies are unaffected with increasing luminosity for 8fb -1 /experiment an exclusion at 90%C.L. down to 2 10 -8 is possible both experiments pursue further improvements in their analysis
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -26- Tevatron limit combination I fragmentation ratio b->B s /b->B u,d standard PDG value as default Tevatron only fragmentation (from CDF) improves limit by 15% uncorrelated uncertainties: uncertainty on eff. ratio uncertainty on background correlated uncertainties: BR of B ± -> J/ (-> ) K ± fragmentation ratio b->B s /b->B u, d quote also an average expected upper limit and single event sensitivity hep-ex/0508058 DØ has larger acceptance due to better coverage, CDF has greater sensitivity due to lower background expectations
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -27- Combination II combined CDF & DØ limit: BR(B s -> ) ) < 1.2 (1.5) × 10 -7 @ 90% (95%) C.L. world-best limit, only factor 35 away from SM important to constrain models of new physics at tan e.g. mSO(10) model is severely constraint Example: SO(10) symmetry breaking model Contours of constant Br(B s μ + μ - ) R. Dermisek et al. hep-ph/0507233
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -28- FCNC & new physics flavor-changing neutral current processes in SM forbidden at tree level at higher order occur through box- and penguin diagrams sensitive to virtual particles in loop, thus can discern new physics GIM-suppression for down-type quarks relaxed due to large top mass observable SM rates lead to tight constraints of new physics corresponding charm decays are less scrutinized and largely unexplored smaller BRs, more suppressed by GIM-mechanism, long-distance effects also dominating nevertheless large window to observe new physics beyond SM exists: R p -violating models, little Higgs models w/ up-like vector quark etc.
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -29- Systematic uncertainties systematics for DØ (CDF very similar) efficiency ratio determined from MC with checks in data on trigger/tracking etc. large uncertainty due to fragmentation ratio background uncertainty from interpolating fit
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -30- expected limit B s -> + - expected limit at 95% C.L. for B s -> + -
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Ralf P. Bernhard – XLIst Rencontres de Moriond QCD - March 19, 2006 -31- Constraining dark matter mSUGRA model: strong correlation between BR(B s -> ) with neutralino dark matter cross section especially for large tan constrain neutralino cross section with less than, within and greater than 2 of WMAP relic density universal Higgs mass parameters non-universal Higgs mass Parameters, H u =1, H d =-1 S. Baek et al., JHEP 0502 (2005) 067
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