Angular Momentum of Fission Fragments from Microscopic Theory

Petar Marević, Nicolas Schunck, Jorgen Randrup, Ramona Vogt

Published 2021-01-09Version 1

The angular momentum of fragments has a significant impact on neutron and photon emission in the fission process, yet it is still poorly understood. In this Letter, we provide the first microscopic calculations of angular momentum distributions in fission fragments for a wide range of fragment masses. For the benchmark case of $^{240}$Pu, we show that the angular momentum of the fragments is largely determined by the nuclear shell structure and deformation, and that heavy fragments therefore generally carry less angular momentum than light fragments. Simulations with the complete event fission model $\mathtt{FREYA}$ show that the microscopic distributions modify the predicted number of emitted photons. This work is an important advance toward modeling the fission process based on inputs from microscopic theory.