B masses, lifetimes and mixing at the Tevatron

1. B masses, lifetimes and mixing at the Tevatron XXXXth Rencontres de Moriond La Thuile, March 12-19 2005      Franco Bedeschi INFN-Pisa OUTLINE • Tevatron and Detectors • Data sets • Masses • Lifetimes • Mixing F. Bedeschi, INFN-Pisa

2. Data sets • CDF/D0 use data collected in the period 2002-2004 • ~ 600 pb-1 recorded • D0: • ~ 220-450 pb-1 used for B physics • CDF: • ~ 240-360 pb-1 used for B physics • Lost ~ 100 pb-1 due to Central Tracking Chamber ageing problem • Now completely resolved F. Bedeschi, INFN-Pisa

3. Data samples • J/y samples: • Millions! ~ 20% are from B’s • Reconstruct exclusive B/LBJ/y K/L0 modes • Semi-leptonic B  D ln X samples: • ~ 100 K events with fully reconstructed D • D0 has larger muon acceptance • CDF lowers lepton trigger pt by requiring additional displaced track • Fully hadronic decays (CDF only) • ~ 10 K events fully reconstructed B’s • Requires trigger on secondary vertex (SVT) F. Bedeschi, INFN-Pisa

4. B hadron lifetimes C. Tarantino, hep-ph/0310241 October 2003 • B hadron decays dominated by b-quark decay • Effect of spectator quarks can be included with perturbative expansions in terms of 1/mb (HQE) • Expect small differences between lifetimes of different species • Non-perturbative ME from lattice, Wilson coeff. from perturbative QCD • NLO improves agreement • Ratios reduce theory uncertainties LO NLO Experiment Theory F. Bedeschi, INFN-Pisa

5. Lifetimes • HFAG 2004 averages as of summer 04 (hep-ex/0412073 Jan. 2005) • B0, B+ dominated by BaBar/Belle (latest not yet included in HFAG average) • Best result from Belle:  calibration result for Tevatron measurements  • B0: 1.534±0.008±0.010, B+: 1.635±0.011±0.011, t(B+)/t(B0)=1.066±0.008±0.008 • Bs, LB: dominated by CDF/D0, LEP • t(B+)/t(B0): No Tevatron Run II results included • Bs: Includes Run II D0 J/yf (220 pb-1), CDF J/yf (240 pb-1) • See talk by S. Burdin for new DGs/Gs measurements • LB: Includes Run II D0 J/yL (250 pb-1), CDF J/yL (65 pb-1) (*)Gabbiani et al.,hep-ph/0407004 Oct.2004 F. Bedeschi, INFN-Pisa

6. 260 pb-1 13,300 Signal events Lifetimes with BlnDX modes • Highest statistics samples • Difficult systematics: • Sample composition for Bu, Bd • Cross talk from D**, D* • Backgrounds: • Combinatorial • Physical: BD(*)D(*) • Prompt: c-cbar, b-bbar, D+fake • Recent result from CDF with low statistics lepton pt > 8 GeV sample t(B+) = 1.653±0.029±0.032 ps, t(B0) = 1.473±0.036±0.054 ps • t(B+)/t(B0) = 1.123±0.040±0.040 • Very high statistics secondary vertex triggered sample still under study F. Bedeschi, INFN-Pisa

7. 440 pb-1 Lifetime ratio with BlnDX modes • D0: new method to determine t(B+)/t(B0): • Fit the ratio of the lifetime distributions • Many systematics are reduced in the ratio • Best measurement of this ratio at Tevatron t(B+)/t(B0) =1.08±0.016±0.014 ~ 126,000 D0 F. Bedeschi, INFN-Pisa

8. Ds D+ RS WS M(fp) 400 pb-1 Lifetimes with BslnDsX modes • First high statistics Bs lifetime measurement from D0 • Use Ds+ fp+ decay • Difficult background systematics: • Combinatorial • Physical: BD(*)D(*) • Prompt: c-cbar, b-bbar, D+fake • Currently best measurement t(Bs) = 1.420±0.043±0.057 ps NDs = 5153 Systematics Summary (mm) F. Bedeschi, INFN-Pisa

9. B- ct-efficiency B-D0p- Lifetime with hadronic decays • CDF: • First measurement with Secondary Vertex Trigger biased samples • Trigger/analysis ct-efficiency curves from “realistic” MC • Check by emulating trigger cuts on B+ J/y K+ • Use several final states • B±: D0p±[8380 ev.] (D0Kp) • B0: D±p [5280 ev.](D±Kpp) D± 3p [4173 ev.] (D±Kpp) • Bs: Ds p± [465 ev.] (Dsfp) Ds 3p [133 ev.] (Dsfp) • Important for Dms measurement F. Bedeschi, INFN-Pisa

10. Lifetimes with hadronic decays Bs B+ • More statistical power than J/y modes • Slightly larger systematics • Efficiency curve • backgrounds t(B+) = 1.661±0.027±0.013 ps t(B0) = 1.511±0.023±0.013 ps t(Bs) = 1.598±0.097±0.017 ps Systematics (mm) Bs B+ F. Bedeschi, INFN-Pisa

11. Lifetimes: new results summary • Many new results not included in HFAG 2004 averages • To come: • CDF high statistics semi-leptonic results • Ratios in several modes • Updates on LB Included in HFAG averages Red = Very recent! Just approved F. Bedeschi, INFN-Pisa

12. B mixing • Neutral B’s mix: • SM interpretation with box diagrams • Frequency Dmd,s |Vtd,s|2 • Constraints to CKM weak due to theory uncertainties • Theory accuracy ~5% in ratio Dmd/Dms • Bd mixing measured and established clearly • LEP, CDF-1, CDF-2, D0-2, BaBar, Belle • Bs mixing not observed • Limits set by LEP, SLD, CDF-1 F. Bedeschi, INFN-Pisa

13. B mixing • Basic ingredients for the measurement: • High statistics samples of neutral B’s in flavor specific decays • CDF: J/yK, Dp, lnDX • D0:J/yK, lnDX • Proper decay length reconstruction • Fully reconstructed modes provide better accuracy • Tagging of flavor at production (flavor tagging) • Key problem at the Tevatron! • Equivalent statistical power: N eD2 • e = tagger efficiency • D = tagger dilution = 2*h-1 (h = probability of correct tag) • Measure: A(t) = (Nnm-Nm)/ N = D cos(Dm t) • Nnm (Nm): number of B’s with same (different) flavor at production and decay • Mixing measurement calibrates dilution • Impossible for Bs until oscillation observed F. Bedeschi, INFN-Pisa

14. Bd Mixing • HFAG Summary Based on result presented in summer 2004 • World Average dominated by BaBar/Belle F. Bedeschi, INFN-Pisa

15. ,K+ Flavor tagging Signal side • Opposite side techniques (OST): • CDF: total eD2 ~ 1.1 – 1.4 % • Soft Muon Tag • Soft Electron Tag • Jet Charge Tag • D0: eD2 ~ 1.1% • Enhanced muon tag eD2 ~ 1.1% • Add-in correlations with associated jet in likelihood • Same side techniques (SST): • Sign of nearby track is correlated to b type (SST) • Tagging power depends on B type • PID helps for Bs • eD2 ~ 1% for CDF&D0 in Bd Opposite side B F. Bedeschi, INFN-Pisa

16. Fit projection lD sample JQT (Vertex) Bd mixing • 2 recent results from CDF using 355 pb-1 and OST • Semi-leptonic sample: 124k lD0 (24k lD*+), 53k lD+ • Dmd = 0.497 ± 0.028(stat.) ± 0.015(syst.) ps-1 • Hadronic sample: 5.3k yK+, 2.2k yK+, 6.2k D0p-, 5.6k D-p+ • Dmd = 0.503 ± 0.063(stat.) ± 0.015(syst.) ps-1 Average all taggers F. Bedeschi, INFN-Pisa

17. Bd Mixing • These results obtained using many features important for Bs mixing • Unbinned fit • Parametrized dilutions • Calibrate dilutions • Test amplitude scan on fully reconstructed Bd • Fit D*A*cos(Dm t) at fixed Dm • Expect A=1 for Dm ~ Dmd • Limit (95% CL): • Dm such that A+1.645sA = 1 • Sensitivity: Dm such that 1.645sA =1 Limit Sensitivity H. G. Moser, A. Roussarie, NIM A384 (1997) F. Bedeschi, INFN-Pisa

18. Bs mixing SM Fit (2004): Dms = 18.3 ± 1.6 ps-1 • Tevatron experiments do not have yet sensitivity for observation of SM prediction • New results: • CDF: • Limit with combined fully reconstructed and semi-leptonic modes (this talk) • D0: • Limit with semi-leptonic modes (S. Burdin talk) F. Bedeschi, INFN-Pisa

19. hadronic peaks semi peaks CDF: Bs mixing (signals) • Hadronic analysis: BsDsp • ~ 900 events • Cross-check with hadronic lifetime analysis (independent group) • Semi-leptonic analysis: BsDsln • ~ 7.5k events • Cross-check with parallel independent analysis Right sign Wrong sign F. Bedeschi, INFN-Pisa

20. BsDsp (Dsfp) • Details (K-f) • (ct-eff) • (sct-SF) • t (had, lD) CDF: Bs mixing (cross-checks) • Mass and lifetime projections • Mass and lifetime consistent with World Avg. values/D0 tBs = 1.518±0.090 Dsfp F. Bedeschi, INFN-Pisa

21. CDF: Bs Mixing (scans-1) • Amplitude scans all statistics dominated Semi-leptonic Hadronic F. Bedeschi, INFN-Pisa

22. Old projections CDF: Bs mixing (scans-2) • Combined scan results: • 7.9 ps-1 95% CL limit • Sensitivity: 8.4 ps-1 • Effect on World Average: • Limit: 14.5  14.5 ps-1 • Sensitivity: 18.2  18.6 ps-1 CDF Run 1 limit F. Bedeschi, INFN-Pisa

23. Conclusions • Many new results from the Tevatron • Major new results in Bs sector • More Bs results from D0 (talk by S. Burdin) • Lifetime updated and more to come • First CDF/D0 Bs mixing limits • Lower than expectations • Additional improvements could reduce the statistical error on the amplitude by up to a factor two with same data set • It is a very difficult analysis, but now we are in business F. Bedeschi, INFN-Pisa

24. Backup Backup Slides F. Bedeschi, INFN-Pisa

25. Tevatron • Tevatron is delivering good luminosity consistent with 2002 predictions • ~ 750 pb-1 delivered per experiment since start of Run II • Peak luminosity in excess of 1032 Best 1.1x1032 • Injections around 1032 are now rather common occurrence • Good Recycler performance F. Bedeschi, INFN-Pisa

26. Detectors • CDF: • Excellent mass resolution • Particle ID: dE/dx, TOF • Tracking triggers (Hadronic B’s): • L1: Tracks • L2: Secondary vertex • D0: • Excellent muon and tracking coverage • Tracking up to |h|<3 • Muons up to |h|<2 F. Bedeschi, INFN-Pisa

27. Masses • D0: • Old 04 results: • Narrow B** resonances • B--> narrow D** sates (D1, D2) • Bc meson in semileptonic decays • New winter 05 results • D**s states • CDF: • Old 04 results: • D+ Ds mass difference • D** states D1, D2 • B meson masses • New winter 05 results: • Hadronic Bc • B** fits (PR plot) F. Bedeschi, INFN-Pisa

28. B hadron masses • B mass determination • Use clean J/yK modes • Accurate tuning of momentum scale with large J/y sample CDF CDF D0 D0 F. Bedeschi, INFN-Pisa

29. Masses • Run II results ~ or better of current world averages • CDF has best results due to better tracking resolution • Close to being systematics dominated F. Bedeschi, INFN-Pisa

30. 230 pb-1 X (3872) • CDF (11.6s) and D0 (5.2s) confirm X (3872) observations from the B factories • CDF measures large prompt fraction • fB(X) = 16.1±4.9±2.0% • fB(y(2S)) = 28.3±1.0±0.7% F. Bedeschi, INFN-Pisa

31. Masses • Many results not covered in this talk: • Charmless two body decays  link • Bc in fully and partially reconstructed modes (next talk) • Measurements of D** and B** narrow resonances  link • Pentaquark searches  link • Charmed baryons  link F. Bedeschi, INFN-Pisa

32.  back B hh • Several new results based on this sample presented at ICHEP last summer • Branching fractions • Integrated CP asymmetries F. Bedeschi, INFN-Pisa

33.  back Bhh • Branching ratios and CP asymmetry • Rare two body decay modes F. Bedeschi, INFN-Pisa

34.  back Bfh • CDF: B+ fK+ • ACP = -0.07 ± 0.17 ± 0.05 (BaBar: 0.054 ± 0.056 ± 0.012) • BR(B+ fK+) = (7.2 ± 1.3 ± 0.7)x10-6 (HFAG: (9.0 ± 0.7)x10-6) • CDF: Bs ff • BR(Bsff) = (1.4 ± 0.6 ± 0.2 ± 0.5(norm))x10-5 (QCD fact. 3.68x10-5) (NF fact. 1.79x10-5) First observation! F. Bedeschi, INFN-Pisa

35.  back D** mesons 4 G300MeV • CDF: Mass and width • D0: B.R. Belle hep-ex/0307021 F. Bedeschi, INFN-Pisa

36.  back B** mesons • D0: • First high statistics observation • CDF: • Preliminary results consistent with D0 F. Bedeschi, INFN-Pisa

37.  back Pentaquark searches • Pentaquark signal searched by CDF • No evidence observed so far • Set limits on production cross-section F. Bedeschi, INFN-Pisa

38.  back Charm baryons • Charm baryons observed for first time at p p-bar collider by CDF F. Bedeschi, INFN-Pisa

39.  back Lifetimes • D0: • Old 04 results: • Bs lifetime from psi phi mode (Bs/B0) • Bd/Bu lifetime ratio • New winter 05 results: • DGs/Gs results and polarization studies • Bs lifetime using DslvX • CDF: • Old 04 results: • Bs/Bd polarization and lifetime difference • Exclusive psiK lifetimes & Bu/Bd lifetime ratio • New winter 05 results: • Lifetimes from semileptonic 8 GeV data • Lifetimes from hadronic modes F. Bedeschi, INFN-Pisa

40. Lifetimes with J/y K modes • Cleanest channels, but statistics limited: • Best Tevatron results from CDF (240 pb-1) • B+ yK+, B0 yK*, K0S, Bsyf • Main background from prompt y + tracks • No kinematic uncertainty • Systematics at level of B factories t(B+) = 1.662±0.033±0.008, t(B0) = 1.539±0.051±0.008 t(Bs) = 1.369±0.100±0.009 NBs = 256 F. Bedeschi, INFN-Pisa

41. Mixing • D0: • Old 04 results: • B0 oscillation with OS mu tag • B0 oscillation with SS tag • B0 oscillation with OS mu tag, Jet Charge and SST • New winter 05 results: • Dms limit from semileptonic decays • CDF: • Old 04 results: • B0 oscillations with SST in fully reconstructed decays • B0 oscillations with OST in semileptonic decays • B0 oscillation with SST in semileptonic decays • New winter 05 results: • B0 mixing with OST in hadronic decays • B0 mixing with OST in semileptonic decays • Bs mixing with OST in hadronic decays • Bs mixing with OST in semileptonic decays F. Bedeschi, INFN-Pisa

42.  back CDF: Bs signals 3p Hadronic samples Wide range Fit projection K*K F. Bedeschi, INFN-Pisa

43.  back CDF: Bs signalssemi-leptonic samples 3p K*K F. Bedeschi, INFN-Pisa

44.  back CDF: Bs lnDs k-factors • K-factor = pt(lD)/pt(B) • Binned by M(lD) DsK*K Dsppp Dsfp F. Bedeschi, INFN-Pisa

45.  back CDF: Bs ct-efficiencies • Semi-leptonic sample • All ct efficiencies obtained with realistic MC • Cross check: lifetimes consistent with D0/WA Dsppp Dsfp DsK*K F. Bedeschi, INFN-Pisa

46.  back CDF: Bs ct-efficiencies • Hadronic sample • All ct efficiencies obtained with realistic MC • Cross check: lifetimes consistent with D0/WA Dsfp DsK*K Dsppp F. Bedeschi, INFN-Pisa

47. Total Signal Combin. Ph/Pr. Bck Total Signal Combin. Ph/Pr. Bck Total Signal Combin. Ph/Pr. Bck  back CDF: Bs lifetime checkssemi-leptonic sample • Raw lifetimes from mixing fit – not good for averaging • Average: tB = 1.477±0.032 ps no systematics evaluated • D0:t(Bs) = 1.420±0.043±0.057 ps, WA:t(Bs) = 1.469 ± 0.059 ps tBs = 1.410±0.086 tBs = 1.381±0.067 tBs = 1.521±0.040 Dsppp Dsfp DsK*K F. Bedeschi, INFN-Pisa

48.  back CDF: Bs lifetime checkshadronic sample • Raw lifetimes from mixing fit – not good for averaging • Average: tB = 1.515±0.070 ps no systematics evaluated • D0:t(Bs) = 1.420±0.043±0.057 ps, WA:t(Bs) = 1.469 ± 0.059 ps tB = 1.377±0.186 tB = 1.550±0.131 Dsppp DsK*K F. Bedeschi, INFN-Pisa

49.  back CDF: Bs s(ct) scale factors • s(ct) scale factor distributions in semi-leptonic sample • Calculation from large data control sample • Parameterization in terms of many variables Dsppp Dsfp DsK*K F. Bedeschi, INFN-Pisa

50.  back CDF: Bs s(ct) scale factors • s(ct) scale factor distributions in the hadronic sample • Calculation from large data control sample • Parameterization in terms of many variables Dsppp Dsfp DsK*K F. Bedeschi, INFN-Pisa