Nuclear density of states for moving fused compound systems

Autor:	M. Rajasekaran, R. Premanand
Rok vydání:	1993
Předmět:	Physics Nuclear reaction Nuclear and High Energy Physics Distribution function Computer Science::Information Retrieval Binding energy Emission spectrum Atomic physics Excitation Spectral line Nuclear density Discrete spectrum
Zdroj:	Physical Review C. 47:2986-2989
ISSN:	1089-490X 0556-2813
Popis:	The single-particle distribution function of moving fused compounds, with velocities of the order of a few tenths of the velocity of light, are calculated using the discrete spectrum of single-particle states of deformed nuclei. The polarization of single-particle momenta in the direction of flight is clearly brought out. Results are presented for [sup 40]Ca, [sup 64]Ni, [sup 71]As, and [sup 90]Zr. For small temperatures when the internal excitations are small, the nuclear level density varies as [ital E]([ital E][sup 2][minus][ital M][sup 2])[sup 1/2] where [ital E] is the total energy of the moving nuclei, and, as excitation increases, the internal degrees of freedom dominate and the level density [rho][similar to][ital e][sup [ital S]], where [ital S] is the entropy of the system, varies exponentially. The level densities thus calculated are used to evaluate light charged-particle emission from hot fused compounds in motion.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::07009485e3682db6ca5bfd7994cbfca7 https://doi.org/10.1103/physrevc.47.2986 Zobrazit plný text záznamu