Exclusive Semileptonic B Decays and |V ub |: Experimental

1. Exclusive Semileptonic B Decays and |Vub|: Experimental 4th Flavor and CP Violation Conference Vancouver, BC 9th – 12th April 2006 Kevin Varvell University of Sydney

2. Significance of |Vub| Measurement • Precision measurement of SM parameter, size not theoretically predicted • Constrain one side of the Unitarity Triangle • Test consistency of SM picture, particularly between |Vub|/|Vcb| and sin21 (sin2β) • Current precision • sin21~ 4% • |Vcb|~ 2% (one recent update mentioned here) • |Vub|~ 7% inclusive (talk this afternoon, E. Barberio) >10% exclusive (main subject of this talk) • Aim is for ‹ 5% precision for |Vub|excl, compare with |Vub|incl This side determined By |Vub|/|Vcb| K. Varvell

3. From Exclusive Semileptonic B decay to |Vub| e+e-→Υ(4S) → BB • Measurements made in • Ideally want to measure rate of tree level process Γ(b  x l) • Complicated by strong interaction effects – form factors needed • Channel B  πl is the most promising for |Vub| - one dominant form factor q2 shape and normalization needed f+(q2) K. Varvell

4. Determining the Form Factor f+(q2) • Earlier predictions made with quark models, e.g. ISGW2 • Lattice QCD • makes predictions at high q2 (q2 > ~16 GeV2) • unquenched calculations have become available in recent times • e.g. HPQCD FNAL • Light Cone Sum Rules • makes predictions at low q2 (q2 < ~14 GeV2) • e.g. Ball & Zwicky • Parametrization has traditionally been used to extend LQCD or LCSR to full q2 range • FF normalization main issue when extracting |Vub| • How much theory input needed for |Vub| measurement? (R. Hill talk) hep-lat-0601201 hep-lat-0409116 PRD 71 (2005) 014015 hep-ph/0509090 K. Varvell

5. Approaches to Measuring B(B  πl) Signal Rest used to reconstruct  Signal ExampleTag side Signal ExampleTag side

6. Range of Applicability of Methods 140 250 500 1000 • Scenario • Untagged • D(*) ltag • Full recon tag fb-1 • Boundaries indicative only • Full recon tag will ultimately become method of choice. • Currently • Belle Lint ~ 500 fb-1 • BaBar Lint ~ 300 fb-1 K. Varvell

7. CLEO Untagged B  πl (9.7M BB) ΔE mBC Phys. Rev. D 68 (2003) 072003 • Search (and fit for yields) across a number of exclusive Xulν modes +,0,+,0,ω,η • Isospin constraints imposed in fit • Extract partial BF in 3 q2 bins for + and + -result K. Varvell

8. CLEO Untagged B  πl (cont.) (9.7M BB) +0.16 +0.53 |Vub| = (3.17 ± 0.17 ± 0.03) x 10-3 -0.17 -0.39 Phys. Rev. D 68 (2003) 072003 • FF models enter extraction of BF through • Signal efficiency from MC • b → u crossfeed and b → c background modelling in MC Different FF models -result B(B0 π-l+) = (1.33 ± 0.18 ± 0.11 ± 0.01 ± 0.07) x 10-4 syst FF sig stat FF crossfeed ( and  mode combined) LCSR + LQCD (unq) FF shape ρ stat syst theo K. Varvell

9. BaBar Untagged B0 π-l+ 79fb-1 (86M BB) mBC ΔE Phys .Rev. D72 (2005) 051102 • Simultaneous extraction of modes +,0,+,0 -result Yield 396 -lν, 137 0lν K. Varvell

10. BaBar Untagged B0 π-l+ (cont) 79fb-1 (86M BB) +0.88 |Vub| = (3.82 ± 0.14 ± 0.22 ± 0.11 ) x 10-3 -0.52 Phys .Rev. D72 (2005) 051102 • Isospin constraints imposed • Extract partial BF in • 5 q2 bins  • 3 q2 bins ρ • “Marginal” agreement with ISGW2 -result B(B0 π-l+) = (1.38 ± 0.10 ± 0.16 ± 0.08) x 10-4 syst stat FF shape FNAL LQCD syst stat FF shape FF norm K. Varvell

11. Belle SL Tag B  πl+ 253fb-1 (275M BB) xB2 Mx xB2 Mx hep-ex/0604024 • Simultaneous extraction of modes +,0,+,0 • xB2 must lie in range [0,1] for signal events Submitted to PLB Yield 156 -lν, 69 0lν K. Varvell

12. Belle SL Tag B  πl+ (cont) p- p0 |Vub| = (4.03 ± 0.46 ± 0.22 ) x 10-3 |Vub| = (3.60 ± 0.41 ± 0.20 ) x 10-3 +0.62 +0.59 -0.41 -0.41 hep-ex/0604024 • Extract partial BF in 3 q2 bins B(B0 π-l+) = (1.38 ± 0.19 ± 0.14 ± 0.03) x 10-4 syst stat FF shape B(B+ π0l+) = (0.77 ± 0.14 ± 0.09 ± 0.00) x 10-4 syst stat FF shape + + 0,q2 ≥ 16 GeV2, FNAL syst stat theo + + 0,q2 ≥ 16 GeV2, HPQCD syst stat theo K. Varvell

13. BaBar SL Tag B0 π-l+ 211fb-1 (232M BB) hep-ex/0506064 • Single mode - studied • cos2fB  [0,1] for signal events Yield 61 -lν K. Varvell

14. BaBar SL Tag B0 π-l+ (cont) 211fb-1 (232M BB) +0.8 |Vub| = (3.3 ± 0.4 ± 0.2 ) x 10-3 -0.4 hep-ex/0506064 • Extract partial BF in 3 q2 bins B(B0 π-l+) = (1.03 ± 0.25 ± 0.13) x 10-4 syst stat +0.8 HPQCD04 syst FF norm stat K. Varvell

15. BaBar SL Tag B+ π0l+ 81fb-1 (88M BB) hep-ex/0506065 • Single mode0studied • cosθB0l  [-1, 1] for signal events Yield 45 0lν B(B+ π0l+) = (1.80 ± 0.37 ± 0.23) x 10-4 stat syst K. Varvell

16. BaBar Full Recon Tag B  πl+ 211fb-1 (233M BB) p- p0 hep-ex/0507085 • Tag : Fully reconstructed B  D decays (“Breco” tag) Select using ΔE, mES (beam constrained B candidate mass) • mmiss2 distribution : peaks at zero for signal (single missing neutrino) mγγ Yield 36 -lν, 34 0lν K. Varvell

17. BaBar Full Recon Tag B  πl+ +0.8 |Vub| = (3.7 ± 0.3 ± 0.2 ) x 10-3 -0.5 hep-ex/0507085 • Extract partial BF in 3 q2 bins p0 p- B(B0 π-l+) = (1.14 ± 0.27 ± 0.17) x 10-4 stat syst B(B+ π0l+) = (0.86 ± 0.22 ± 0.11) x 10-4 syst stat Combined + + 0 B(B  πl+) = (1.28 ± 0.23 ± 0.16) x 10-4 syst stat + + 0, HPQCD syst stat FF norm K. Varvell

18. Summary of B(B  πl) Exclusive p0 p- HFAG Winter 2006 Note: Updated Belle SL tag result not yet incorporated in plot Untagged analyses currently the most precise Average B(B0 π-l+): (1.34 ± 0.08 ± 0.08) x 10-4 K. Varvell

19. Summary of |Vub| from Exclusive B  πl HFAG Winter 2006 Experimental q2 shape input not used (yet) Using FF calculated in region of applicability Using FF extrapolated to full q2 range K. Varvell

20. Other B  Xul Exclusive Modes +0.47 +0.35 -0.54 -0.47 Tag PRD 68 (2003) 072003 Untagged Untagged PRD 61 (2000) 052001 Full hep-ex/0408068 Untagged PRL 90 (2003) 181801 PRD 72 (2005) 051102 Untagged SL hep-ex/0604024 Untagged PRD 68 (2003) 072003 SL hep-ex/06xxxxx PRL 93 (2004) 131803 Untagged HFAG Compilation, except with updated Belle SL result included K. Varvell

21. BaBar Exclusive |Vcb| Measurement 79fb-1 (86M BB) Update to PRD 71 (2005) 051502 submitted to PRD hep-ex/0602023 • Multi-Dimensional fit to helicity amplitudes for 2 (slope parameter) and R1, R2 (FF ratios), all functions of H+,-,0(w). w = vB· vD* K. Varvell

22. BaBar Exclusive |Vcb| Measurement (cont) +1.5 |Vcb| = (37.6 ± 0.3 ± 1.3 ) x 10-3 -1.3 syst stat theo hep-ex/0602023 • Improvement in FF uncertainty • Reduces |Vcb| systematic error • Useful for understanding b → c background in b → u R1 = 1.396 ± 0.060 ± 0.035 ± 0.027 R2 = 0.885 ± 0.040 ± 0.022 ± 0.013 ρ2 = 1.145 ± 0.059 ± 0.030 ± 0.035 w cosθl χ cosθV K. Varvell

23. Summary of Exclusive |Vcb| Measurements HFAG Winter 2006 Note: Does not include latest BaBar result from hep-ex/0602023 K. Varvell

24. Summary and Future : Exclusive |Vub| Measurements • CLEO, BaBar and Belle ⇒ Xu BF measurements using several channels and several techniques Xu :+,0,+,0,ω,η ⇒ |Vub| extracted using +,0 modes – Exptl error approaches 5% - FF normalization error dominates ⇒ Xc BF measurements and |Vcb| continue to be important ⇒ future precision Xu measurements using Full Recon tagging ⇒FF shapemeasurements from experiment now possible • Theory progress important (and happening) as well (R. Hill talk) (P. Mackenzie talk) • |Vub| to better than 5% precision overall from exclusive semileptonic B-factory measurements? ⇒ Feasible. K. Varvell