Abstract
The intrinsic energy partition between two complementary fission fragments is investigated microscopically. The intrinsic excitation energy of fission fragments is dynamically evaluated in terms of the time-dependent pairing equations. These equations are corroborated with two conditions. One of them fixes the number of particles and the other separates the pairing active spaces associated to the two fragments in the vicinity of the scission configuration. The excitation energy in a wide distribution of fission fragments is calculated for the 234 U parent nucleus.
Highlights
Under the action of a mutual Coulomb repulsion, at scission the fission fragments are accelerated in opposite directions
The intrinsic excitation energy of fission fragments is dynamically evaluated in terms of the time-dependent pairing equations
One of them fixes the number of particles and the other separates the pairing active spaces associated to the two fragments in the vicinity of the scission configuration
Summary
Under the action of a mutual Coulomb repulsion, at scission the fission fragments are accelerated in opposite directions. The intrinsic energy partition between two complementary fission fragments is investigated microscopically. The intrinsic excitation energy of fission fragments is dynamically evaluated in terms of the time-dependent pairing equations. The excitation energy in a wide distribution of fission fragments is calculated for the 234U parent nucleus.
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