Dependence of the friction tensor on angular momentum and temperature

Krzysztof Pomorski; Helmut Hofmann

doi:10.1016/0370-2693(91)90580-J

Dependence of the friction tensor on angular momentum and temperature

Krzysztof Pomorski
, Helmut Hofmann

Department of Physics

Maria-Curie Skłodowska University

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

The axial and non-axial components of the friction tensor were evaluated within the zero frequency limit of linear response theory. Calculations were performed for ²³⁸U and for deformations corresponding to the first and to the second minimum. A rotating, three-axial Nilsson potential was used to describe the intrinsic degrees of freedom. It was found that the axial component of the friction tensor grows significantly with the rotational frequency, while the non-axial component decreases. Both components grow with the temperature.

Original language	English
Pages (from-to)	164-168
Number of pages	5
Journal	Physics Letters B
Volume	263
Issue number	2
DOIs	https://doi.org/10.1016/0370-2693(91)90580-J
State	Published - 11 Jul 1991

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title = "Dependence of the friction tensor on angular momentum and temperature",

abstract = "The axial and non-axial components of the friction tensor were evaluated within the zero frequency limit of linear response theory. Calculations were performed for 238U and for deformations corresponding to the first and to the second minimum. A rotating, three-axial Nilsson potential was used to describe the intrinsic degrees of freedom. It was found that the axial component of the friction tensor grows significantly with the rotational frequency, while the non-axial component decreases. Both components grow with the temperature.",

author = "Krzysztof Pomorski and Helmut Hofmann",

note = "Funding Information: Nuclear dissipation is of very special nature. This has to do with the long mean free path the nucleons encounter inside the nucleus. For not too high exci- ¢r This work has been funded in part by the German Federal Minister for Research and Technology (BMFT) under the contract number 06-TM-711.",

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AU - Hofmann, Helmut

N1 - Funding Information: Nuclear dissipation is of very special nature. This has to do with the long mean free path the nucleons encounter inside the nucleus. For not too high exci- ¢r This work has been funded in part by the German Federal Minister for Research and Technology (BMFT) under the contract number 06-TM-711.

PY - 1991/7/11

Y1 - 1991/7/11

N2 - The axial and non-axial components of the friction tensor were evaluated within the zero frequency limit of linear response theory. Calculations were performed for 238U and for deformations corresponding to the first and to the second minimum. A rotating, three-axial Nilsson potential was used to describe the intrinsic degrees of freedom. It was found that the axial component of the friction tensor grows significantly with the rotational frequency, while the non-axial component decreases. Both components grow with the temperature.

AB - The axial and non-axial components of the friction tensor were evaluated within the zero frequency limit of linear response theory. Calculations were performed for 238U and for deformations corresponding to the first and to the second minimum. A rotating, three-axial Nilsson potential was used to describe the intrinsic degrees of freedom. It was found that the axial component of the friction tensor grows significantly with the rotational frequency, while the non-axial component decreases. Both components grow with the temperature.

UR - https://www.scopus.com/pages/publications/0001082910

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DO - 10.1016/0370-2693(91)90580-J

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VL - 263

SP - 164

EP - 168

JO - Physics Letters B

JF - Physics Letters B

IS - 2

ER -

Dependence of the friction tensor on angular momentum and temperature

Abstract

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