Conference paper

Appeared in: Microscopic theories of nuclear collective motions

Publication year: 1983

Pages: 402-416

DOI Link: https://doi.org/10.1143/PTPS.74.402

Conference: 5th Kyoto Summer Institute

Title of series: Progress of theoretical physics. Supplement

Number in series: 74/75

Abstract: 

Current and velocity distributions have been calculated for quadrupole vibrations and rotations using a cranked Nilsson model with pairing correlations. For vibrations the flow pattern is similar to that obtained in recent fluid dynamical models. It is shown that the currents for low-lying states exhibit a strong vortex whereas those for the higher ones are nearly incompressible and irrotational. The microscopic reasons for this difference are discussed. For rotations it is shown that the currents can be roughly approximated as a superposition of rigid and irrotational flow but that the higher multipole components add additional structure.

Harvard Citation style: Schuh, A., Kunz, J. and Mosel, U. (1983) Vibrational and Rotational Flow in Nuclei, in Microscopic theories of nuclear collective motions. Kyoto: Kyoto Univ.. pp. 402-416. https://doi.org/10.1143/PTPS.74.402

APA Citation style: Schuh, A., Kunz, J., & Mosel, U. (1983). Vibrational and Rotational Flow in Nuclei. In Microscopic theories of nuclear collective motions. (pp. 402-416). Kyoto Univ.. https://doi.org/10.1143/PTPS.74.402