The Kalman-Tran-D'Souza Model and the Semileptonic Decay Rates of Heavy Baryons
Abstract
We present an investigation of the inclusive semileptonic decay widths of the heavy baryons LambdaQ and XiQ, (Q=b,c) performed within a relativistic constituent quark model, formulated on the light-front. In a way conceptually similar to the deep-inelastic scattering case, the HQ baryon inclusive width is expressed as the integral of the free Q-quark partial width multiplied by a bound-state factor related to the Q-quark distribution function in the HQ. The non-perturbative meson structure is described through the quark-model wave functions, constructed via the Hamiltonian light-front formalism using as input the Kalman-Tran-D'Souza equal time wave functions. A link between spectroscopic quark models and the HQ decay physics is obtained in this way. It is shown that the bound-state effects and the Fermi motion of the b-quark remarkably reduce the decay rate with respect to the free-quark result. Our predictions for the BR(Lambdac ->Xs e nue) and BR(Lambdab->Xc e nue) decays are in good agreement with existing data.
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