Abstract
The asymmetric fission barriers and the released kinetic energies in the deformation valley leading rapidly to two tangent spherical fragments have been calculated for $^{194}\mathrm{Hg}$, $^{149}\mathrm{Tb}$, $^{110\mathrm{\ensuremath{-}}112}\mathrm{In}$, $^{94}\mathrm{Mo}$, and $^{75}\mathrm{Br}$ within the generalized liquid-drop model including the nuclear proximity energy. Results are compared to experimental data and predictions of the Yukawa plus exponential finite range liquid-drop model and the liquid-drop model. The calculated asymmetric fission barrier heights lie between the values obtained by the two other theoretical approaches.
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