Thermal Shape Fluctuations, Landau Theory, and Giant Dipole Resonances in Hot Rotating Nuclei
- 24 October 1988
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 61 (17) , 1926-1929
- https://doi.org/10.1103/physrevlett.61.1926
Abstract
A macroscopic approach to giant dipole resonances (GDR's) in hot rotating nuclei is presented. It is based on the Landau theory of nuclear shape transitions and provides a unified description of thermal fluctuations in all quadrupole shape degrees of freedom. With all parameters fixed by the zero-temperature nuclear properties the theory shows a very good agreement with existing GDR measurements in hot nuclei. The sensitivity of the GDR peak to the shape of hot nuclei is critically examined. Low-temperature experimental results in Er show clear evidence for changes in the nuclear energy surface, while higher-temperature results are dominated by the fluctuations.Keywords
This publication has 9 references indexed in Scilit:
- Landau theory of shape transitions in hot rotating nucleiNuclear Physics A, 1987
- Role of thermal fluctuations in the damping of the giant dipole resonance of spherical and deformed nuclei:Physics Letters B, 1987
- Giant Resonances in Excited NucleiAnnual Review of Nuclear and Particle Science, 1986
- Universal Features of Shape Transitions in Hot Rotating NucleiPhysical Review Letters, 1986
- Damping of the giant dipole resonance in hot, strongly rotating nucleiNuclear Physics A, 1985
- Deformation of Heated Nuclei Observed in the Statistical Decay of the Giant Dipole ResonancePhysical Review Letters, 1985
- Nuclear Shape at High Spin and Excitation EnergyPhysical Review Letters, 1984
- Phenomenology of shape transitions in hot nucleiNuclear Physics A, 1984
- A semi-phenomenological description of the giant dipole resonance widthNuclear Physics A, 1974