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Interpretation of Fermion system equilibration by energy fluid motion

Conference:

Abstract

We study the equilibration of fermion system with the help of both linear and non-linear master equations which are originated from the extended time-dependent Hartree-Fock equation of motion. We show how the non-linear master equation for nucleon occupation number transforms into the Navier-Stokes type of one dimensional equation for non-stationary flow of a compressible and viscous fluid. Physical consequences of these equations are investigated by providing illustrative examples.
Authors:
Publication Date:
Dec 31, 1990
Product Type:
Conference
Report Number:
ISN-90-70; CONF-9005254-
Reference Number:
SCA: 663120; PA: FRD-92:000022; SN: 92000651867
Resource Relation:
Conference: 3. international spring seminar on nuclear physics: understanding the variety of nuclear excitations,Ischia (Italy),21-25 May 1990; Other Information: PBD: 1990
Subject:
73 NUCLEAR PHYSICS AND RADIATION PHYSICS; FERMIONS; NUCLEAR MODELS; HARTREE-FOCK METHOD; NUCLEON-NUCLEON INTERACTIONS; NAVIER-STOKES EQUATIONS; VISCOUS FLOW; FLOW MODELS; FERMI INTERACTIONS; SINGLE-PARTICLE MODEL; TIME DEPENDENCE; ATOMIC MODELS; 663120; NUCLEAR STRUCTURE MODELS AND METHODS
OSTI ID:
10115696
Research Organizations:
Grenoble-1 Univ., 38 (France). Inst. des Sciences Nucleaires
Country of Origin:
France
Language:
English
Other Identifying Numbers:
Other: ON: DE92761852; TRN: FR9200022
Availability:
OSTI; NTIS (US Sales Only)
Submitting Site:
FRN
Size:
8 p.
Announcement Date:
Feb 20, 1992

Conference:

Citation Formats

Jang, S. Interpretation of Fermion system equilibration by energy fluid motion. France: N. p., 1990. Web.
Jang, S. Interpretation of Fermion system equilibration by energy fluid motion. France.
Jang, S. 1990. "Interpretation of Fermion system equilibration by energy fluid motion." France.
@misc{etde_10115696,
title = {Interpretation of Fermion system equilibration by energy fluid motion}
author = {Jang, S}
abstractNote = {We study the equilibration of fermion system with the help of both linear and non-linear master equations which are originated from the extended time-dependent Hartree-Fock equation of motion. We show how the non-linear master equation for nucleon occupation number transforms into the Navier-Stokes type of one dimensional equation for non-stationary flow of a compressible and viscous fluid. Physical consequences of these equations are investigated by providing illustrative examples.}
place = {France}
year = {1990}
month = {Dec}
}