Nucleon correlations and the equation of state of nuclear matter

A Rios Huguet; A Polls; I Vidana; A Ramos; WH Dickhoff; H Muther

doi:10.1063/1.3542037

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Nucleon correlations and the equation of state of nuclear matter

Journal article

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Nucleon correlations and the equation of state of nuclear matter

A Rios Huguet, A Polls, I Vidana, A Ramos, WH Dickhoff and H Muther

AIP Conference Proceedings, Vol.1322, pp.99-107

28/12/2010

DOI: https://doi.org/10.1063/1.3542037

Abstract

The self-consistent Green's function method within the ladder approximation provides a microscopic description of correlated nuclear systems which properly treats the nucleon-nucleon correlations induced by the short-range and tensor components present in any realistic interaction. These correlations produce a sizable depletion of low momenta below the Fermi surface as well as the occupation of high momenta in the nuclear ground state. A few representative results for nuclear matter are presented to illustrate the present progress in the application of this method to nuclear systems

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Title: Nucleon correlations and the equation of state of nuclear matter
Creators: A Rios Huguet
A Polls
I Vidana
A Ramos
WH Dickhoff
H Muther
Publication Details: AIP Conference Proceedings, Vol.1322, pp.99-107
Publisher: American Institute of Physics
Date published: 28/12/2010
Date submitted: 20/10/2011
Identifiers: 99516679702346
Academic Unit: School of Maths and Physics
Resource Type: Journal article

Nucleon correlations and the equation of state of nuclear matter

Abstract

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