Pairing and Short-Range Correlations in Nuclear Systems

A. Rios; A. Polls; W. H. Dickhoff

doi:10.1007/s10909-017-1818-7

Pairing and Short-Range Correlations in Nuclear Systems

A. Rios
, A. Polls
, W. H. Dickhoff

Department of Physics

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

The structure and density dependence of the pairing gap in infinite matter is relevant for astrophysical phenomena and provides a starting point for the discussion of pairing properties in nuclear structure. Short-range correlations can significantly deplete the available single-particle strength around the Fermi surface and thus provide a reduction mechanism of the pairing gap. Here, we study this effect in the singlet and triplet channels of both neutron matter and symmetric nuclear matter. Our calculations use phase-shift equivalent interactions and chiral two-body and three-body interactions as a starting point. We find an unambiguous reduction of the gap in all channels with very small dependence on the NN force in the singlet neutron matter and the triplet nuclear matter channel. In the latter channel, SRC alone provide a 50% reduction of the pairing gap.

Original language	English
Pages (from-to)	234-249
Number of pages	16
Journal	Journal of Low Temperature Physics
Volume	189
Issue number	5-6
DOIs	https://doi.org/10.1007/s10909-017-1818-7
State	Published - Dec 1 2017

Keywords

Neutron matter
Nuclear matter
Nuclear physics
Superfluidity

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10.1007/s10909-017-1818-7

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title = "Pairing and Short-Range Correlations in Nuclear Systems",

abstract = "The structure and density dependence of the pairing gap in infinite matter is relevant for astrophysical phenomena and provides a starting point for the discussion of pairing properties in nuclear structure. Short-range correlations can significantly deplete the available single-particle strength around the Fermi surface and thus provide a reduction mechanism of the pairing gap. Here, we study this effect in the singlet and triplet channels of both neutron matter and symmetric nuclear matter. Our calculations use phase-shift equivalent interactions and chiral two-body and three-body interactions as a starting point. We find an unambiguous reduction of the gap in all channels with very small dependence on the NN force in the singlet neutron matter and the triplet nuclear matter channel. In the latter channel, SRC alone provide a 50\% reduction of the pairing gap.",

keywords = "Neutron matter, Nuclear matter, Nuclear physics, Superfluidity",

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T1 - Pairing and Short-Range Correlations in Nuclear Systems

AU - Rios, A.

AU - Polls, A.

AU - Dickhoff, W. H.

PY - 2017/12/1

Y1 - 2017/12/1

N2 - The structure and density dependence of the pairing gap in infinite matter is relevant for astrophysical phenomena and provides a starting point for the discussion of pairing properties in nuclear structure. Short-range correlations can significantly deplete the available single-particle strength around the Fermi surface and thus provide a reduction mechanism of the pairing gap. Here, we study this effect in the singlet and triplet channels of both neutron matter and symmetric nuclear matter. Our calculations use phase-shift equivalent interactions and chiral two-body and three-body interactions as a starting point. We find an unambiguous reduction of the gap in all channels with very small dependence on the NN force in the singlet neutron matter and the triplet nuclear matter channel. In the latter channel, SRC alone provide a 50% reduction of the pairing gap.

AB - The structure and density dependence of the pairing gap in infinite matter is relevant for astrophysical phenomena and provides a starting point for the discussion of pairing properties in nuclear structure. Short-range correlations can significantly deplete the available single-particle strength around the Fermi surface and thus provide a reduction mechanism of the pairing gap. Here, we study this effect in the singlet and triplet channels of both neutron matter and symmetric nuclear matter. Our calculations use phase-shift equivalent interactions and chiral two-body and three-body interactions as a starting point. We find an unambiguous reduction of the gap in all channels with very small dependence on the NN force in the singlet neutron matter and the triplet nuclear matter channel. In the latter channel, SRC alone provide a 50% reduction of the pairing gap.

KW - Neutron matter

KW - Nuclear matter

KW - Nuclear physics

KW - Superfluidity

UR - https://www.scopus.com/pages/publications/85031899218

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DO - 10.1007/s10909-017-1818-7

M3 - Article

AN - SCOPUS:85031899218

SN - 0022-2291

VL - 189

SP - 234

EP - 249

JO - Journal of Low Temperature Physics

JF - Journal of Low Temperature Physics

IS - 5-6

ER -

Pairing and Short-Range Correlations in Nuclear Systems

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