1 / 19

Status report B  D 0 K p 0 decay

Status report B  D 0 K p 0 decay. G.Calderini M.Carpinelli N.Neri BaBar Italia Capri 11 Apr 2003 INFN Pisa. Motivations of the analysis. Possibility to measure the weak g angle. M. Gronau and D. Wyler, Phys. Lett. B 265, 172 (1991).

allans
Télécharger la présentation

Status report B  D 0 K p 0 decay

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. Status reportBD0Kp0 decay G.Calderini M.Carpinelli N.Neri BaBar Italia Capri 11 Apr 2003 INFN Pisa

  2. Motivations of the analysis • Possibility to measure the weak g angle. • M. Gronau and D. Wyler, Phys. Lett. B 265, 172 (1991). • Dalitz plot can help solving the 8-fold ambiguity of the g value. • R.Aleksan et al. hep-ph/0209194 (Nov 2002) • Measurement of the branching ratio of non resonant decay. BaBar Italia

  3. Extension to Wyler-Gronau method in B-D0K- decays • Measuring g through amplitude relationship • The decay amplitude varies in the Dalitz plot • The Non Resonant decay is color allowed : • larger interference. BaBar Italia

  4. Measurement of g R.Aleksan et al. hep-ph/0209194 (Nov 2002) • Interference amplitudes for each region i of the Dalitz plot • Relation among the number of measured events in each region i both color allowed for Non Resonant decay BaBar Italia

  5. p0 K+ D0 W K+ B+ W D0 p0 B+ Feynman diagrams (Non Res) • The leading tree diagrams are both color allowed • Interference amplitudes are both large b->c quark transition b->u quark transition leading diagram leading diagram BaBar Italia

  6. MC Sample Releases 10.3.1x SP4 • B+ generic: 24.44 fb-1 • B0 generic: 14.87 fb-1 • ccbar: 7.60 fb-1 • uds: 3.63 fb-1 • signal MC: • D0 K+p0 NR: 3000 Ev • D*0 K+ : 3000 Ev • D0 K*+ : 18000 Ev BaBar Italia

  7. List of candidates Release anal13b • Blist:BchToD0KPi0_Default,BchToD0barKPi0_Default • D0 list: D0ToKPi_Loose into hadronic modes: Kp • K list : GTL • p list : GTL K3p, Kpp0 will be added • D0 into CP modes KK,pp , Ksp0 will be added • K list: GTL • p0list :Pi0ToGGLoose BaBar Italia

  8. Selection cuts • K selection • KMicroVeryTight • plab<2.75GeV • 0 selection • doMass true • plab>0.75GeV • |mp0-mPDG|<3s •  selection • Elab>100MeV • Event shape: • FoxWol < 0.3 • |cos(T)| < 0.75 • |DE|<200MeV • P(B+2)>0.1 • D0 selection • K :KMicroTight • doMass true • P(D02)>0.01 • |mD0-mPDG|<3s BaBar Italia

  9. Event Shape |COS(T)|<0.75 FoxWol<0.3 BaBar Italia

  10. Work in Progress Fisher Discriminant (CLEO): 9 cones + cosB + cosT continuum SIG CLEO Fisher BaBar Italia

  11. D0 Selection probD0>0.01 KMicroTight BaBar Italia

  12. Work in Progress • Added new info in the ntuple: • D0 flight length, beam-spot, primary vertex D0 proper time distribution Time(ps) BaBar Italia

  13. Pi0 Selection Plab>0.75 GeV/c BaBar Italia

  14. Bkg composition E distribution MES distribution The number of events is scaled to 100 fb-1 BaBar Italia

  15. BKG composition • Bch:6 B decay not correctly reconstructed 12 combinatorial bkg events 5 false D0 , 3 false Pi0, 4 other • B0 : 1 B decay not correctly reconstructed 6 combinatorial bkg events 2 false D0, 2 false Pi0, 2 other • ccbar: 5 combinatorial events 1 false Pi0, 4 other B-  D*0 -  D0 0 -0 misid K lost 0 soft BaBar Italia

  16. Multiple candidates We found 1 candidate per event in the 3 sigma [MES,DE] with present selection criteria. • IF multiple candidate event is found we select the best candidate with the minimization of the 2: This criteria in principle does not bias MES, DE distribution. BaBar Italia

  17. Expected number of events • We can estimate the order of magnitude of NR BR assuming it equal to RES one: BR(D0 K*+, K*+ K+p0 )  BR(D0 K+p0 )NR 1-2•10-4 BR(D0 K*+ ) = 6.1 x 10-4 [CLEO] We assume the BR= 1 •10-4 • Efficiencies on signal MC after severe cuts with Kp mode: 7% = 30 events • Adding K3p ,Kpp0 we can expect3times the number of events. BaBar Italia

  18. Work in Progress • Added new modes into the ntuple: • Kp, Kpp0, K3p, KK, pp • SP5 signal MC: • More MC signal NR produced with moose: • 15000 events available (before we had 3000) • Started to write the BAD. • Discovered a bug in the Official Tag Bit for DKPi. Contacted the Breco convener and writing the new sequence for the next reprocessing. • Planning to run on data and MC filtering on an inclusive tag bit: D0 + ntrkLoose>=3 BaBar Italia

  19. Next step • Starting production on a consistent generic MC and DATA sample. • BBbar, continuum , signal, cocktail D(*)K(*) • Run1, Run2 • Optimizing the Fisher discriminant approach. • Optimization of the cuts. • Starting cross checks using DATA-MC comparison. BaBar Italia

More Related