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Relativistic Description of Exclusive Heavy-to-Light Semileptonic Decays $B\toπ(ρ)eν$

The method of calculating electroweak decay matrix elements between heavy-heavy and heavy-light meson states is developed in the framework of relativistic quark model based on the quasipotential approach in quantum field theory. This method is applied for the study of exclusive semileptonic $B\toπ(ρ)$ decays. It is shown that the large value of the final $π(ρ)$ meson recoil momentum allows for the expansion in inverse powers of $b$-quark mass of the decay form factors at $q^2=0$, where $q^2$ is a momentum carried by the lepton pair. This $1/m_b$ expansion considerably simplifies the analysis of these decays and is carried out up to the second order. The $q^2$-dependence of the form factors is investigated. It is found that the $q^2$-behaviour of the axial form factor $A_1$ is different from the other form factors. It is argued that the ratios $Γ(B\toρeν)/Γ(B\toπeν)$ and $Γ_L/Γ_T$ are sensitive probes of the $A_1$ $q^2$-dependence, and thus their experimental measurement may discriminate between different approaches. We find $Γ(B\toπeν)=(3.0\pm0.6) \times|V_{ub}|^2\times10^{12}$s$^{-1}$ and $Γ(B\toρeν) =(5.4\pm 1.2)\times|V_{ub}|^2\times10^{12}$s$^{-1}$. The relation between semileptonic and rare radiative $B$-decays is discussed.