Microscopic calculation of α-decay half-lives with a deformed potential

A new version of the generalized density-dependent cluster model is presented to describe an alpha particle tunneling through a deformed potential barrier. The microscopic deformed potential is numerically constructed in the double-folding model by the multipole expansion method. The decay width is computed using the coupled-channel Schroumldinger equation with outgoing wave boundary conditions. We perform a systematic calculation on alpha-decay half-lives of even-even nuclei ranging from Z=52 to Z=104, including 65 well-deformed ones. The calculated alpha-decay half-lives are found to be in good agreement with the experimental values. There also exists good agreement with the available experimental branching ratios for well-deformed systems.