DBHF approach and thermodynamic consistency for nuclear matter calculations
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3899
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Resumo |
Within the framework of Dirac Brueckner-Hartree-Fock (DBHF) approach, we calculate the energy per nucleon, the pressure, the nucleon self-energy, and the single-nucleon energy in the nuclear matter by adopting two different covariant representations for T-matrix. We mainly investigate the influence of different covariant representations on the satisfiable extent of the Hugenholtz-Van Hove (HVH) theorem in the nuclear medium in the framework of DBHF. By adopting the two different covariant representations of T-matrix, the predicted nucleon self-energy shows a quite different momentum and density dependence. Different covariant representations affect remarkably the satisfiable extent of the HVH theorem. By adopting the complete pseudo-vector representation of the T-matrix, HVH theorem is largely violated, which is in agreement with the result in the non-relativistic Brueckner-Hartree-Fock approach and reflects the importance of ground state correlations for single nucleon properties in nuclear medium, whereas by using the pseudoscalar representation, the ground state correlation cannot be shown. It indicates that the complete pseudo-vector presentation is more feasible than the pseudo-scalar one. |
Identificador | |
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中文 |
Fonte |
Luo, PY (Luo Pei-Yan); Zuo, W (Zuo Wei); Li, ZH (Li Zeng-Hua); Yong, GC (Yong Gao-Chan); Xu, ZF (Xu Zhong-Feng) .DBHF approach and thermodynamic consistency for nuclear matter calculations,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION ,38991,30(10):976-982 |
Palavras-Chave | #DBHF approach #nuclear matter #nucleon self-energy #HVH theorem |
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期刊论文 |