B Meson Semileptonic Form Factors from Unquenched Lattice QCD
Abstract
The semileptonic process, B --> π l , is studied via full QCD Lattice simulations. We use unquenched gauge configurations generated by the MILC collaboration. These include the effect of vacuum polarization from three quark flavors: the s quark and two very light flavors (u/d) of variable mass allowing extrapolations to the physical chiral limit. We employ Nonrelativistic QCD to simulate the b quark and a highly improved staggered quark action for the light sea and valence quarks. We calculate the form factors f+(q2) and f0(q2) in the chiral limit for the range 16 GeV2 ≤ q2 < q2max and obtain ∫q2max16 GeV2 [d/dq2] dq2 / |vub|2 = 1.46(35) ps-1. Combining this with a preliminary average by the Heavy Flavor Averaging Group (HFAG'05) of recent branching fraction data for exclusive B semileptonic decays from the BaBar, Belle and CLEO collaborations, leads to |Vub| = 4.22(30)(51) × 10-3. PLEASE NOTE APPENDIX B with an ERRATUM, to appear in Physical Review D, to the published version of this e-print (Phys.Rev.D 73, 074502 (2006)). Results for the form factor f+(q2) in the chiral limit have changed significantly. The last two sentences in this abstract should now read; "We calculate the form factor f+(q2) and f0(q2) in the chiral limit for the range 16 Gev2 ≤ q2 < q2max and obtain ∫q2max16 GeV2 [d/dq2] dq2 / |Vub|2 = 2.07(57)ps-1. Combining this with a preliminary average by the Heavy Flavor Averagibg Group (HFAG'05) of recent branching fraction data for exclusive B semileptonic decays from the BaBar, Belle and CLEO collaborations, leads to |Vub| = 3.55(25)(50) × 10-3."
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