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Quantum Algorithms
Uncertainty Principle and Angular Momentum Generation in Microscopic Fission Models
arXiv
Authors: G. Scamps, A. Guilleux, D. Regnier, A. Bernard
Year
2025
Paper ID
16351
Status
Preprint
Abstract Read
~2 min
Abstract Words
161
Citations
N/A
Abstract
The generation of angular momentum (intrinsic spin) in fission fragments has recently attracted renewed attention. While several microscopic approaches reproduce the spin distribution qualitatively using projection techniques, the physical origin of the fragments' angular momentum in density functional theory remains unclear. In this work, we investigate the mechanisms responsible for the spin distribution of fission fragments within a microscopic TDDFT framework. We compare spin distributions obtained from projection operators with those predicted by a simple expression derived from the uncertainty relation between angle and angular momentum, where angular fluctuations are estimated using a Monte Carlo sampling of nucleon positions. We find that a large portion of the spin distribution obtained from projection methods can be explained by the uncertainty principle. Our results thus show that, within microscopic approaches, the spin of fission fragments originates primarily from quantum uncertainty associated with their orientation angle with respect to the fission axis, mainly due to quadrupole deformation and, to a lesser extent, octupole deformation.
Why This Paper Matters
- It adds a 2025 reference point for readers tracking recent quantum research.
- The generation of angular momentum (intrinsic spin) in fission fragments has recently attracted renewed attention.
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