Nuclear tensor interaction in a covariant energy density functional

Jiang, Li Juan; Yang, Shen; Sun, Bao Yuan; Long, Wen Hui; Gu, Huai Qiang

doi:10.1103/physrevc.91.034326

Cited by 47 publications

(54 citation statements)

References 35 publications

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“…[27,43,[46][47][48]. In RHF theory, the energy density functional (EDF) is obtained by taking the expectation value of the Hamiltonian with respect to the Hartree-Fock ground state, which consists of three parts: the kinetic EDF ε k , the direct (Hartree) ε D φ and the exchange (Fock) ε E φ terms of the potential EDF.…”

Section: F -mentioning

confidence: 99%

“…1 , remarkably negative contribution to E M S,k is found from the isoscalar-meson coupling channel, while relatively weak but still considerable contribution results from the isovector-meson coupling channel, eventually leading to a significant difference in the sign and magnitude of E S,k between RMF and RHF results. In fact, it has been demonstrated very recently that the nuclear tensor in- teractions are naturally embedded in both the isoscalar and the isovector meson-nucleon coupling channels with the presence of the Fock diagrams in the RHF EDF [38,46]. In consequence, the extra contributions from the Fock terms of Σ S to the kinetic symmetry energy could be regarded partly as the effects of the nuclear tensor-force components therein, see Refs.…”

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confidence: 99%

“…The detailed discussion on these topics refers to Refs. [27,43,44,46,47].The general formulae of the DDRHF theory in nuclear matter can be found in Refs. [27,43,[46][47][48].…”

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confidence: 99%

“…In consequence, the extra contributions from the Fock terms of Σ S to the kinetic symmetry energy could be regarded partly as the effects of the nuclear tensor-force components therein, see Refs. [46,47].In short, present status of DDRHF studies on the isospin properties of nuclear matter is summarized, especially the effects of the Fock terms on the nuclear symmetry energy such as those from the hyperon and the nuclear tensor force. The reduction of the kinetic symmetry energy at supranuclear density in DDRHF models is discussed as well, which is related to the fact of a remarkably negative contribution from the isoscalar-meson coupling channel via Fock terms.…”

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confidence: 99%

“…With the growth of computational facilities and the development of new methods, such defects can be eliminated with the inclusion of exchange (Fock) terms, which generates a new CDF model -the relativistic Hartree-Fock (RHF) theory with density-dependent meson-nucleon couplings (i.e., the DDRHF theory) [27]. Substantial improvements are gained by DDRHF in the selfconsistent description of the ground state properties [27][28][29][30][31][32][33][34][35][36][37][38], the excitation modes [39][40][41][42] of finite nuclei and nuclear astrophysics as well [43][44][45][46].It has been shown from several studies that the inclusion of the Fock terms in the CDF theory could improve descriptions of the isospin-related nuclear structure. In fact, non-locality of the mean field induced by the Fock terms gives rise to the momentum dependence of the RHF self-energies, improving the isospin and energy dependence for the nucleon effective mass [27].…”

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confidence: 99%

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Impact of Fock terms on the isospin properties of nuclear matter

Sun

Zhao

Long

2016

EPJ Web of Conferences

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Several topics on the isospin properties of nuclear matter studied within the density-dependent relativistic Hartree-Fock theory are summarized. In detail, the effects of the Fock terms on the nuclear symmetry energy are listed, including the extra enhancement from the Fock terms of the isoscalar meson-nucleon coupling channels, the extra hyperon-induced suppression effect originating from the Fock channel, self-consistent tensor effects embedded automatically in the Fock diagrams, the enhanced density-dependent isospin-triplet potential part of the symmetry energy at high densities, a reduced kinetic symmetry energy at supranuclear density and so on. The results demonstrate the importance of the Fork diagram, especially from the isoscalar mesonnucleon coupling channels, on the isospin properties of the in-medium nuclear force.The isospin properties of nuclear matter, such as the nuclear symmetry energy, the nucleon isovector (symmetry) potential, and the neutron-proton effective mass splitting, play essential roles in studying several topics of nuclear structure, nuclear reactions and nuclear astrophysics [1][2][3][4][5][6][7]. Among them of great contemporary interest is the nuclear symmetry energy E S [8], which has been investigated extensively within both phenomenological approaches and microscopic many-body theories using almost all available effective and/or realistic nuclear interactions, see, e.g., Refs. [9][10][11][12][13][14]. Due F -to our limited knowledge about the in-medium effects of nucleon-nucleon (NN) interactions and correlations along with technical difficulties to treat quantum many-body systems accurately, distinct deviations of predicted E S values appear beyond the nuclear saturation density ρ 0 .For the description of the structural properties of nuclear systems, the covariant density functional (CDF) theory has achieved great success during recent decades [15][16][17][18][19][20][21][22][23]. One of the most popular representatives is the relativistic Hartree approach with the no-sea approximation, namely, the relativistic mean field (RMF) theory [15,[24][25][26]. However, due to the limit of the approach itself, significant system degrees of freedom are missing in RMF, such as the one-pion exchange. The non-local effects of nuclear forces and the momentum dependence of self-energies are also hardly to be treated. With the growth of computational facilities and the development of new methods, such defects can be eliminated with the inclusion of exchange (Fock) terms, which generates a new CDF model -the relativistic Hartree-Fock (RHF) theory with density-dependent meson-nucleon couplings (i.e., the DDRHF theory) [27]. Substantial improvements are gained by DDRHF in the selfconsistent description of the ground state properties [27][28][29][30][31][32][33][34][35][36][37][38], the excitation modes [39][40][41][42] of finite nuclei and nuclear astrophysics as well [43][44][45][46].It has been shown from several studies that the inclusion of the Fock terms in the CDF theory could ...

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Section: F -mentioning

confidence: 99%

mentioning

confidence: 99%

“…The detailed discussion on these topics refers to Refs. [27,43,44,46,47].The general formulae of the DDRHF theory in nuclear matter can be found in Refs. [27,43,[46][47][48].…”

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Impact of Fock terms on the isospin properties of nuclear matter

Sun

Zhao

Long

2016

EPJ Web of Conferences

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Moments of inertia of neutron stars in relativistic mean field theory: The role of the isovector scalar channel

Qian

Xin

Sun

2018

Sci. China Phys. Mech. Astron.

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With the inclusion of the isovector scalar channel in the meson-nucleon couplings, taking DD-MEδ as an effective interaction, the moments of inertia of neutron stars possessing various stellar masses are studied within the density dependent relativistic mean field (RMF) theory. The isovector scalar channel contributes to the softening of the neutron-star matter equation of state (EOS) and therefore the reduction of the maximum mass and radius of neutron stars. Smaller values of the total moment of inertia I and the crustal moment of inertia ∆I are then obtained in DD-MEδ via numerical procedure in comparison with those in other selected RMF functionals. In addition, the involvement of the isovector scalar channel lowers the thickness of the neutron star crust and its mass fraction as well. The sensitivity to both the crustal mass and stellar radius causes the crustal moment of inertia to be more obviously reduced than the total one, eventually leading to a suppression on the fraction of crustal moment of inertia ∆I/I in DD-MEδ. The results indicate the crustal moment of inertia as a more sensitive probe of the neutron-star matter EOS than the total one, and demonstrate that the isovector scalar meson-nucleon couplings in the RMF theory could exert influence over the physics of pulsar glitches. neutron star, moment of inertia, relativistic mean field theory, isovector scalar channel PACS number(s): 21.60.Jz, 26.60.-c, 26.60.Kp, 26.60.Gj, 97.60.Gb, 97.10.Kc Citation: Qian Z, Xing R Y and Sun B Y, Moments of inertia of neutron stars in relativistic mean field theory: the role of the isovector scalar channel, Sci.

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Contributions of optimized tensor interactions on the binding energies of nuclei

Bai

Sagawa

et al. 2020

NUCL SCI TECH

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Nuclear tensor interaction in a covariant energy density functional

Cited by 47 publications

References 35 publications

Impact of Fock terms on the isospin properties of nuclear matter

Impact of Fock terms on the isospin properties of nuclear matter

Moments of inertia of neutron stars in relativistic mean field theory: The role of the isovector scalar channel

Contributions of optimized tensor interactions on the binding energies of nuclei

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