Aurel Bulgac, Shi Jin, Piotr Magierski, Kenneth J. Roche, Ionel Steycu
Published 2017-04-03Version 1
We describe the fission dynamics of $^{240}$Pu within an implementation of the Density Functional Theory (DFT) extended to superfluid systems and real-time dynamics. We demonstrate the critical role played by the pairing correlations, which even though are not the driving force in this complex dynamics, are providing the essential lubricant, without which the nuclear shape evolution would come to a screeching halt. The evolution is found to be much slower than previously expected in this fully non-adiabatic treatment of nuclear dynamics, where there are no symmetry restrictions and all collective degrees of freedom (CDOF) are allowed to participate in the dynamics.
Comments: 8 pages, 3 figures, Account of invited talk given at The 26th International Nuclear Physics Conference, 11-16 September, 2016, Adelaide, Australia
Microscopic Theory of Nuclear Fission: A Review
Density Functional Theory for non-relativistic Fermions in the Unitarity Limit
Density Functional Theory for a Confined Fermi System with Short-Range Interaction
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