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Response function of hot nuclear matter

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Abstract

The response function of hot nuclear matter to a small isovector external field is investigated. It is shown that for a simplified Skyrme interaction an analytical and self-consistent formula can be derived. An interesting feature of this formula is that it exhibits a privileged value of the interaction strength beyond which a rapid variation of the dipole strength with temperature is obtained. It is concluded that available data for the thermal evolution of giant resonances provide valuable information on the particle-hole effective interaction. (authors). 14 refs., 2 figs.
Authors:
Publication Date:
Feb 01, 1994
Product Type:
Technical Report
Report Number:
IPNO-TH-94-15
Reference Number:
SCA: 663110; PA: AIX-26:022915; EDB-95:048205; SN: 95001340073
Resource Relation:
Other Information: PBD: Feb 1994
Subject:
73 NUCLEAR PHYSICS AND RADIATION PHYSICS; NUCLEAR MATTER; HOT NUCLEI; RESPONSE FUNCTIONS; GIANT RESONANCE; PARTICLE-HOLE MODEL; SKYRME POTENTIAL; 663110; GENERAL AND AVERAGE PROPERTIES OF NUCLEI AND NUCLEAR ENERGY LEVELS
OSTI ID:
10122857
Research Organizations:
Paris-11 Univ., 91 - Orsay (France). Inst. de Physique Nucleaire
Country of Origin:
France
Language:
English
Other Identifying Numbers:
Other: ON: DE95619307; TRN: FR9501116022915
Availability:
OSTI; NTIS (US Sales Only); INIS
Submitting Site:
FRN
Size:
11 p.
Announcement Date:
Jun 30, 2005

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Citation Formats

Braghin, F, and Vautherin, D. Response function of hot nuclear matter. France: N. p., 1994. Web.
Braghin, F, & Vautherin, D. Response function of hot nuclear matter. France.
Braghin, F, and Vautherin, D. 1994. "Response function of hot nuclear matter." France.
@misc{etde_10122857,
title = {Response function of hot nuclear matter}
 author = {Braghin, F, and Vautherin, D}
 abstractNote = {The response function of hot nuclear matter to a small isovector external field is investigated. It is shown that for a simplified Skyrme interaction an analytical and self-consistent formula can be derived. An interesting feature of this formula is that it exhibits a privileged value of the interaction strength beyond which a rapid variation of the dipole strength with temperature is obtained. It is concluded that available data for the thermal evolution of giant resonances provide valuable information on the particle-hole effective interaction. (authors). 14 refs., 2 figs.}
 place = {France}
 year = {1994}
 month = {Feb}
 }