Semileptonic B π Decays from an Omn\`es Improved Nonrelativistic Constituent Quark Model
Abstract
The semileptonic B π l+ l decay is studied starting from a simple quark model which includes the influence of the B* pole. To extend the predictions of a nonrelativistic constituent quark model from its region of applicability near q2 max=(mB-mπ)2 to all q2 values accessible in the physical decay, we use a novel multiply-subtracted Omn\`es dispersion relation, which considerably diminishes the form factor dependence on the elastic π B π B scattering amplitudes at high energies. By comparison to the experimental branching fraction we extract |Vub| = 0.0034 0.0003 ( exp) 0.0007 ( theory). To further test our framework, we also study D π and D K decays and find excellent results f+π(0)f+K(0) = 0.80 0.03, B(D0 π- e+ e) B(D0 K- e+ e)= 0.079 0.008. In particular for the D π case, we reproduce, with high accuracy, the three-flavor lattice QCD results recently obtained by the Fermilab-MILC-HPQCD Collaboration. While for the D K case, we successfully describe the data for f+(q2)/f+(0) recently measured by the FOCUS Collaboration.
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