Nucleon correlations and the equation of state of nuclear matter | Zendy

A. Polls | Zendy; W. H. Dickhoff | Zendy; H. Müther | Zendy; À. Ramos | Zendy; Arnau Rios | Zendy; Isaac Vidaña | Zendy; J. Nieves | Zendy; E. Oset | Zendy; M. J. Vicente Vacas | Zendy

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Nucleon correlations and the equation of state of nuclear matter

Author(s) -

A. Polls,

W. H. Dickhoff,

H. Müther,

À. Ramos,

Arnau Rios,

Isaac Vidaña,

J. Nieves,

E. Oset,

M. J. Vicente Vacas

Publication year - 2010

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.3542037

Subject(s) - nuclear matter , nucleon , physics , tensor (intrinsic definition) , range (aeronautics) , statistical physics , fermi gamma ray space telescope , equation of state , nuclear physics , nuclear radiation , state (computer science) , quantum electrodynamics , quantum mechanics , mathematics , nuclear engineering , engineering , algorithm , pure mathematics , aerospace engineering

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 system

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