Add to ORKGThe mixing of the doorway components of a giant resonance due to the interaction via the common decay channels influences significantly the distribution of the multipole strength and the energy spectrum of the decay products of the giant resonance. The photoemission turns out to be most sensitive to the overlapping of the doorway states. At high excitation energies, the interference between the doorway states leads to a restructuring towards lower energies and apparent quenching of the dipole strength. (orig.)Available from TIB Hannover: RR 1847(96-154) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekSIGLEDEGerman
The possible excitation of isoscalar dinole strength in the region of the giant resonances is invest...
We report on strong interference effects for the dominant, highly correlated, broad, and asymmetric ...
A semimicroscopical approach is applied to calculate: (i) strength functions for the charge-exchange...
The mixing of the doorway components of a giant resonance due to the interaction via the common deca...
The mixing of the doorway components of a giant resonance (GR) due to the interaction via common dec...
Using a phenomenological schematic model of multipole giant resonances we consider the effects of ov...
Using a phenomenological schematic model of multipole giant resonances we con-sider the effects of o...
We review the phenomenon of fine structure of nuclear giant resonances and its relation to different...
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In heavy nuclei the damping of the giant resonance is due to thermalization of the energy rather tha...
En appliquant un modèle microscopique à 1 particule-1 trou "doorway" pour des états nucléaires excit...
The semi-classical derivation of the Kramers-Heisenberg formula describing resonance scattering is e...
The electromagnetic excitation of the two-photon isovector giant dipole resonance in relativistic pr...
The relativistic excitation of the double giant dipole resonance in Xe136 has been calculated, descr...
The role of intermediate energy heavy ions in the study of giant multipole resonances is explored, w...
The possible excitation of isoscalar dinole strength in the region of the giant resonances is invest...
We report on strong interference effects for the dominant, highly correlated, broad, and asymmetric ...
A semimicroscopical approach is applied to calculate: (i) strength functions for the charge-exchange...
The mixing of the doorway components of a giant resonance due to the interaction via the common deca...
The mixing of the doorway components of a giant resonance (GR) due to the interaction via common dec...
Using a phenomenological schematic model of multipole giant resonances we consider the effects of ov...
Using a phenomenological schematic model of multipole giant resonances we con-sider the effects of o...
We review the phenomenon of fine structure of nuclear giant resonances and its relation to different...
We study the effect of the spreading widths on the excitation probabilities of the double giant dipo...
In heavy nuclei the damping of the giant resonance is due to thermalization of the energy rather tha...
En appliquant un modèle microscopique à 1 particule-1 trou "doorway" pour des états nucléaires excit...
The semi-classical derivation of the Kramers-Heisenberg formula describing resonance scattering is e...
The electromagnetic excitation of the two-photon isovector giant dipole resonance in relativistic pr...
The relativistic excitation of the double giant dipole resonance in Xe136 has been calculated, descr...
The role of intermediate energy heavy ions in the study of giant multipole resonances is explored, w...
The possible excitation of isoscalar dinole strength in the region of the giant resonances is invest...
We report on strong interference effects for the dominant, highly correlated, broad, and asymmetric ...
A semimicroscopical approach is applied to calculate: (i) strength functions for the charge-exchange...