Nuclear Physics A
 2017
DOI: 10.1016/j.nuclphysa.2016.11.001
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The nucleonic matter spin–orbit and tensor correlations in the LOCV framework

Azar Tafrihi
1
,
M. Modarres
2
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Cited by 9 publications
(1 citation statement)
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“…Previous studies used partialwave expansion of plane waves, because partial waves are eigenstates of spin-orbit operator. This method becomes tedious if one goes to higher-order perturbation theory and has been mostly confined to Bethe-Goldstone calculations [8], 3-body coupled cluster [3] or "low-order constraint variational" (LOCV) [9][10][11] calculations.…”
Section: Introduction a Interactions: Semi-empirical Nucleon-nucleon Forcesmentioning
confidence: 99%

Variational and parquet-diagram calculations for neutron matter: Structure and energetics

Krotscheck
1
,
Wang
2
2020
Phys. Rev. C
7
1
10
0
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“…Previous studies used partialwave expansion of plane waves, because partial waves are eigenstates of spin-orbit operator. This method becomes tedious if one goes to higher-order perturbation theory and has been mostly confined to Bethe-Goldstone calculations [8], 3-body coupled cluster [3] or "low-order constraint variational" (LOCV) [9][10][11] calculations.…”
Section: Introduction a Interactions: Semi-empirical Nucleon-nucleon Forcesmentioning
confidence: 99%

Variational and parquet-diagram calculations for neutron matter: Structure and energetics

Krotscheck
1
,
Wang
2
2020
Phys. Rev. C
7
1
10
0
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The LOCV asymmetric nuclear matter two-body density distributions versus those of FHNC

Tafrihi
1
2018
Annals of Physics
10
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The three-body cluster energy for the isospin asymmetric nucleo
Tafrihi
1
2019
Annals of Physics
7
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