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B. D (*) ,p, X c ,X u. E ℓ q 2 = p ℓ 2 +p n 2. D,. M X. Semileptonic B-Meson Decays. We study semileptonic decays B X c,u ℓ n Leptonic and hadronic currents factorize! Experimental approaches: inclusive or exclusive ( B → p ℓ n, ... ).
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B D(*),p, Xc ,Xu
Eℓ q2 = pℓ2+pn2 D, MX Semileptonic B-Meson Decays • We study semileptonic decays BXc,uℓn • Leptonicand hadronic currents factorize! • Experimental approaches: inclusiveor exclusive (B → p ℓn, ...) • electroweak interaction coupling • |Vcb| , |Vub| • strong interaction • meson structure Inclusive Decays • Large signal rate, high bkg • Total rate calculated with HQE • Need Shape Function (b-quark motion in B meson) smears kin. spectra. SF param. from b sg or b cln. Exclusive Decays • Lower signal rate, better bkg reduction • Need Form Factors to describe hadronization process • Measurement as function of q2, angles
high mass charm states Mx2[GeV2/c4] Enough d.o.f. to fit 8 parameters: Shape function par. needed for |Vub| |Vcb| from Ee and MX Moments • Measure moments of lepton momentum and hadronic mass spectra in B Xcℓn • 1st to 4th MX moments , 0th to 3rd Ee moments (as function of min. cut on Ee) HQE fit theo. error band Global fit to Ee , MX , Eg (bsg) moments: |Vcb| = (41.58 + 0.45 +0.58) x 10-3 mb (kin) = 4.591 ± 0.040 GeV mp2(kin) = 0.406 ± 0.042 GeV s (|Vcb|) = 1.7% s (mb) = 1% s (mc) = 5%
|Vcb| from B D* ℓn Phase space Form factor • The decay rate is: • f (w=1) = 1 in heavy quark limit; lattice QCD says: f (1) = 0.919 • Shape of f (w) expressed in terms of r2 (slope at w=1) and form-factor ratios R1, R2. • Measure decay angles qℓ ,qV , c . Fit3Ddistribution in bins of w to extact r2, R1, R2 . Here we use w = D* boost in B rest frame +0.030 –0.035 Hashimoto et al, PRD 66 (2002) 014503 Caprini, Lellouch, Neubert Nucl. Phys. B 530, 153 (1998)
stat. MC stat. syst. B D* ℓn Form Factors & |Vcb| 1D projections of fit result: 88M BB w cosql cosqV c Factor 5 improvement on FF uncertainty from previous CLEO measurement (1996!) Total systematic error on |Vcb| : 4.5% 3.5% BABAR
Inclusive |Vub| from Lepton Endpoint BABAR 88M BB Data MC bkgb cln Data – bkg MC signalb uln +0.42 –0.38SF |Vub|=(4.44±0.25exp ±0.22theo)´10-3 • Study inclusive decays B Xu ℓn • Large charm bkg from B Xc ℓn need accurate bkg subtraction • Restrict phase space (problematic for HQE !) shape function becomes important • Select events with high-E lepton: 2.0 < Eℓ < 2.6 GeV • Lower Eℓ cut below charm threshold • Larger acceptance, smaller theoretical error fully corrected spectrum
p Btag signal e- D* e+ n Bsignal Xu l theory uncertainties +0.46 –0.38SF |Vub|=(4.65±0.34exp ±0.23theo)´10-3 Inclusive |Vub| with Hadronic B tag • Hadronic B tag: Fully reconstruct one Btag in hadronic decay mode known momentum, flavor, charge of other Bsignal MX < 1.7 GeV and q2 > 7 GeV2 • New “shape function-independent” approach: • Combine b uln rate with b sg spectrum • Or measure full MX spectrum 88M BB Leibovich, Low, Rothstein hep-ph/0005124,0105066 MX<1.67 GeV: |Vub| = (4.43 ± 0.45exp± 0.29theo)×10-3 88M BB MXmax
mES (GeV) disfavors ISGW II quark model 83 x 106 BB Data Signal MC Comb. Sig. Crossfeed bcln qq |Vub| from B p ℓn • Untagged analysis: Reconstruct neutrino from missing 4-momentum of event 82M BB • Experimentally: • Good S/B ratio, untagged & tagged analyses • Measure q2 dependence of form factor • Theoretically: • Complementary to inclusive approach • Form-factor norm. dominates error on |Vub| Form Factor LQCD2 +0.89 –0.53FF |Vub| = (3.82 ±0.26exp ) ´10-3
+ + + + c = + |fDs|2 m + s |Vcs|2 Nmn = 489±55 Ds→mn signal Preliminary 248M BB DS+m+n and Decay Constant fDs • Leptonic decay proceeding through weak annihilation of quarks • Form factor f (q2 = M2Ds) decay constant fDs • Ds(*) mesons from e+ e- cc • Tag one D(*), reconstruct signal side • viaD*SDSgm n g • Normalize to Dsf p : stat syst Ds→fp LQCD: Aubin et al. PRL 95 122002 (2005) Validates LQCD predictions at 10% level
Conclusions • BABAR has broad program of semileptonic/leptonic B decays. SLAC plays a leading role here. • Much progress in the last 1-2 years: |Vcb| 2%, |Vub| 7-8% , form factors, … • BABAR is now also exploiting their large D-meson samples. • Charm semileptonic decays provide high-quality “lattice calibration”. • Techniques validated by charm decays can be applied to beauty decays! • These measurements have reached precision to allow critical comparisons with theory calculations: Form Factors & HQE Parameters CKM constraints (“tree” quantities) 2004 2006 fDs results: status 2004
SLAC’s Contribution B Xcln incl. : Mass spectra, moments, |Vcb| Buchmüller, Lüth B D*ln : Form factors, |Vcb| Snyder B Xsg : Branching Fraction, moments Ozcan, Libby, Jessop B Xuln incl. : Momentum endpoint spectrum, |Vub| Lüth B Xuln incl. : Shape function independent, |Vub| Langenegger B pln & rln : Branching fraction, form factor, |Vub| Weinstein, Dingfelder, Kelsey, Lüth Ds mn : Branching fraction, decay constant Stelzer, Schindler
D Testing Theory with D K/p l n • Study D-meson decays from e+ e- cc with high statistics • Tag one c quark via full reconstruction of D(*) meson • Dramatically reduces bkgfrom u, d, s and B mesons mpole = 1.854 ± 0.016 ± 0.020 apole = 0.43 ± 0.03 ± 0.04 |Vcs| from unitarity determine |f+(q2)| |f+(q2)|from LQCD determine |Vcs| Goal: measure ratio B(D pln) / B(D Kln) compare with lattice |f+p(q2)| / |f+K(q2)| Charm SL decays provide high-quality lattice calibration. Techniques validated by charm decays can be applied to beauty decays!