Abstract
We perform an extensive investigation on α decays in both even-A and odd-A nuclei within the new version of the generalized density-dependent cluster model. The microscopic deformed potential is numerically constructed in the double-folding model by the multipole expansion method. The coupled-channel effect resulting from nuclear deformation is included by using the coupled-channel Schrodinger equation with outgoing wave boundary conditions. The fine structure observed in α decay is well described by taking into account the angular momentum of the emitted α particle and the Boltzmann distribution of excitation spectrum in daughter nuclei. A good agreement between experiment and theory is achieved, and the results of our calculations are discussed in detail, together with the sensitivity of the calculated half-lives and branching ratios to some physical quantities used in the calculations.
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