A study on the dependence of nuclear viscosity on temperature

A study on the dependence of nuclear viscosity on temperature

Nuclear viscosity is an irreplaceable ingredient of nuclear fission collective dynamical models. It drives the exchange of energy between the collective variables and the thermal bath of single particle degrees of freedom. Its dependence on the shape and temperature is a matter of controversy. By us...

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Veröffentlicht in:Journal of physics. Conference series 2018-05, Vol.1014 (1), p.12018
Hauptverfasser: Vardaci, E, Di Nitto, A, Nadtochy, P N, La Rana, G, Cinausero, M, Prete, G, Gelli, N, Ashaduzzaman, M, Davide, F, Pulcini, A, Quero, D, Kozulin, E M, Knyazheva, G N, Itkis, I M
Format: Artikel
Sprache:eng
Schlagworte:
Dynamic models
Nuclear fission
Physics
Statistical models
Thermal baths
Viscosity
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Zusammenfassung:Nuclear viscosity is an irreplaceable ingredient of nuclear fission collective dynamical models. It drives the exchange of energy between the collective variables and the thermal bath of single particle degrees of freedom. Its dependence on the shape and temperature is a matter of controversy. By using systems of intermediate fissility we have demonstrated in a recent study that the viscosity parameters is larger for compact shapes, and decreases for larger deformations of the fissioning system, at variance with the conclusions of the statistical model modified to include empirically viscosity and time scales. In this contribution we propose an experimental scenario to highlight the possible dependence of the viscosity from the temperature.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1014/1/012018