1 / 35

Report from Working Group 2 B/D/K Decays

b. Report from Working Group 2 B/D/K Decays. Conveners Gerhard Buchalla, Luca Silvestrini (theory) Takeshi Komatsubara, Franz Muheim (experiment). Outline. Scope of WG2 Benchmark processes Tasks Experimental Summary. Flavour Physics 2005-2015.

cirila
Télécharger la présentation

Report from Working Group 2 B/D/K Decays

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. b Report from Working Group 2 B/D/K Decays • Conveners • Gerhard Buchalla, Luca Silvestrini (theory) • Takeshi Komatsubara, Franz Muheim (experiment) GB, TK, FM, LS

  2. Outline • Scope of WG2 • Benchmark processes • Tasks • Experimental Summary GB, TK, FM, LS

  3. Flavour Physics 2005-2015 • High energy colliderBSMPrecision flavour studies • New particle masses flavour couplings • Precision flavour studies • Rare decays  CP violation • B/D/K experiments beyond LHC • Super B factories • Fixed target D/K at PS/SPS or JPARC • Flavour mixing: quarks  leptons • Hadronic uncertainties GB, TK, FM, LS

  4. Benchmark processes • bs, bd, bsll, b s • Bs,d  +- • B  +, D+ • UT angles • Bd  KS, DK, ,  • Bs  DsK, KK • Bs-Bsbar mixing • bs hadronic transitions • Bd  phiKS, … • K , KL 0ll • D0-D0bar mixing, D rare decays • Need info on all possible flavour transitions • bs bd sd • Theoretically clean observables GB, TK, FM, LS

  5. Table from G. Isidori

  6. Pattern of the deviation from the SM Table from M. Hazumi Unitarity triangle Rare decays ++: Large, +: sizable, -: small “DNA Identification” of New Physics from Flavor Structure T.Goto, Y.Okada, Y.Shimizu,T.Shindou, M.Tanaka (2002, 2004) + SuperKEKB LoI

  7. List of Tasks • Study complementarity between collider and flavour physics • SUSY benchmark (e.g. SPS1a) in collider physics • Add flavour violation ( squark decays) • Compute effective Hamiltonian (OPE) • Evaluate flavour observables, check consistency with data • Beyond SUSY • NP model independent studies, MFV • Common session WG1 & WG2 • Hadronic Uncertainties • dedicated session at next meeting • Experimental Studies • Sensitivities – LHC, (super-)B & tau/charm factories, fixed target • Triggers, Backgrounds, GB, TK, FM, LS

  8. GB, TK, FM, LS

  9. (Experimental) Summary • Gamma at tree level (includes Vub) • B-> DK Dalitz – Babar/Cavoto, Belle/Gershon, LHCb/Schneider • Bs->DsK, Bs-> K+K- – LHCb/Schneider • Sin2 with penguins • Belle/Gershon • Babar/Pierini • Super-B/Hazumi • Many theory talks • Charm • D0-D0bar mixing, D rare decays, decay constants, comparison with Lattice QCD/ Stone • Kaons • K+ + NA48/Ruggiero, Littenberg • KL 0 E391a/KEK Komatsubara, Littenberg • Theory talks / Buras, Scimemi GB, TK, FM, LS

  10. (Experimental) Summary • Radiative Penguins b-> s, b->d, B->tau nu • Belle/Iijima • BaBar/ Playfer • Electroweak Penguins B(s) -> ll K(*), ll s • Belle/Hazumi/Iijima • Babar/Playfer • LHCb/Koppenburg • Theory/Ligeti • Bs->mumu • LHCb/Schneider • CDF/Oldeman • C0/Ay • Atlas/Nikitine • CMS/Speer GB, TK, FM, LS

  11. (Experimental) Summary • Bs mixing • Mass difference ms, weak mixing phase s lifetime difference s/s, • CDF/Oldeman • D0/Ay • LHCb/Fernandez • Unitarity fits • CKMfitter/ Robert • UTfit/Stocchi GB, TK, FM, LS

  12. SM test - sin2 vs Vub Stocchi sin2b=0.687±0.032 From direct measurement we have a weak sign of a disagreement sin2b =0.791±0.034 from indirect determination expt mb, theory GB, TK, FM, LS

  13. Interference when D final state common to both D0 and D0 Cavoto g from direct CP violation Relative size (rB) of B decay amplitudes Larger rB, larger interference, betterg experimental precision (degrees) 0.1 0.2

  14. Cavoto Gershon  from B->DK Dalitz analysis Sensitivity to g Belle =75,=180,rB=0.125 r(770) DCS K*(892) g=[67°±28°(stat.) ±13°(syst. exp.) ± 11°(Dalitz model*) ] BaBar Belle GB, TK, FM, LS

  15. Projected  uncertainty from B->DK Cavoto Schneider Projected sys error due to D0 Dalitz plot • Candidate for LHCb’s statistically • most precise determination of  • () ~ 5 in one year ? • To be studied during this workshop … GB, TK, FM, LS

  16. NP in Bd-Bd mixing (IV) Robert gandaare of major importance in constraining the NP parameters. NB: sin(2b+2qd+g) is not included. (almost no influence.)

  17. sin2 from Hadronic Penguins GB, TK, FM, LS

  18. sin2 from Hadronic Penguins Limits on SUSY mass insertion parameters GB, TK, FM, LS

  19. Rare Kaon Decays Buras GB, TK, FM, LS

  20. Prospects for K+ -> + at CERN/SPS Ruggiero +1.30 • Present (E787/949): BR(K+p+nn) = 1.47 ×10-10 -0.89 Current constraint on r,h plane 100 events Mean: E787/949 100 events Mean: SM P326 at SPS CERN 80 events GB, TK, FM, LS

  21. Prospects for K0L -> 0 at JPARC Komatsubara GB, TK, FM, LS

  22. Do-Do mixing: the data Stone • The study of Do wrong-sign Kp yields has been a key step in our experimental study of Do Do mixing. • Caveats: • Complicated by interference between DCSD & mixing [strong phase d data constrain only x & y] • Complicated by CP violation Most general fit FLAVOUR IN THE ERA OF THE LHC, Nov. 7-10, 2005

  23. Do Do mixing: the data II Stone • Do semileptonic decays: Rws = ½(x2+y2) [no strong phased] • Dalitz plot analysis of D0 K p+p-(CLEO II.V) comparable sensitivity 0 s FLAVOUR IN THE ERA OF THE LHC, Nov. 7-10, 2005

  24. b -> d gamma Playfer GB, TK, FM, LS

  25. A10/A7 A9/A7 A10/A7 SM A9/A7 B->K*l+l- F-B asymmetry Belle, 2005 Iijima • 357fb-1 (386M BB) • N(K*ll)=114+-14 (purity 44%) • Unbinned M.L. fit to dG2/dsd(cosq) • 8 event categories • Signal + 3 cross-feed + 4 bkg. • Ali et al’s form factor • Fix |A7| to SM • Float A9/A7 and A10/A7 • Results; w/negative A7 (SM like) w/positive A7 Sign of A9A10 is negative ! See Hep-ex/0508009 & A.Ishikawa’s talk at EPS05 FPCP2004

  26. Koppenburg Iijima Playfer AFB in B->K*ll LHCb Super B-factory Expected precision @ 5ab-1@ 50ab-1 dC9 ~ 11% dC10 ~14% d q02/q02 ~11% ~5% GB, TK, FM, LS

  27. Bs+- at Tevatron CDF 360 pb-1 300pb-1 Excluded! CDF & D0 Bs+- <2.010-7 Bs+- <3.910-7 Combined limit: • Bs+- <1.510-7 hep-ex/0508058 Rolf Oldeman (University of Liverpool) Flavour studies and BSM searches at the Tevatron

  28. Bs +– at LHC Schneider Speer Nikitine • Very rare decay, sensitive to new physics: • BR ~ 3.5  10–9 in SM, can be strongly enhanced in SUSY • Current limit from Tevatron (CDF+D0): 1.5  10–7 at 95% CL GB, TK, FM, LS

  29. RK = (BK)/ (BKee) GB, TK, FM, LS

  30. New Bs mixing results from Tevatron Ay Oldeman D0 CDF D2=1.550.09% ms >8.6ps-1, sensitivity 13.0ps-1 GB, TK, FM, LS

  31. New world average limit 14.5  16.6 ps-1 sensitivity 18.3  20.0 ps-1 Further improvements from • more data • more decay channels (e.g. BsDs*) • Same-side and opposite-side kaon tags Rolf Oldeman (University of Liverpool) Flavour studies and BSM searches at the Tevatron

  32. GB, TK, FM, LS

  33. LHCb ms sensitivity Fernandez GB, TK, FM, LS

  34. LHCb s sensitivity GB, TK, FM, LS

  35. Conclusions • This meeting • many talks by people about New Physics and experimental status and prospects • Major Tasks • Study complementarity between collider and flavour physics • Common session WG1 & WG2 • Hadronic Uncertainties • Experimental Studies • Real “work” in WG2 starts now • Encourage people to come forward • Study groups will be formed soon • Thank you to all involved GB, TK, FM, LS

More Related