Skyrme能量密度泛函的张量部分。一、球形核

IF 3.2 2区物理与天体物理 Q2 PHYSICS, NUCLEAR

Physical Review C Pub Date : 2007-04-05 DOI:10.1103/PhysRevC.76.014312

T. Lesinski, M. Bender, K. Bennaceur, T. Duguet, Jean-Arcady Meyer

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引用次数: 14

摘要

我们系统地研究了Skyrme能量泛函中J^2张量项对球核性质的影响。在Skyrme能量泛函中，张量项来源于零范围中心力和张量力。我们建立了一组36个参数化，涵盖了等标量和等矢量张量项耦合常数的广泛参数空间，其拟合协议与成功的SLy参数化非常相似。我们分析了张量项对球面平均场计算中大量观测值的影响，如双幻核的自旋轨道分裂和单粒子谱，沿半幻核链的自旋轨道分裂的演化，球面核的质量残差，以及已知的电荷半径异常。我们的主要结论是，目前使用的Skyrme能量密度泛函的中心和自旋轨道部分不够灵活，无法允许大张量项的存在。

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The tensor part of the Skyrme energy density functional. I. Spherical nuclei

We perform a systematic study of the impact of the J^2 tensor term in the Skyrme energy functional on properties of spherical nuclei. In the Skyrme energy functional, the tensor terms originate both from zero-range central and tensor forces. We build a set of 36 parameterizations, which covers a wide range of the parameter space of the isoscalar and isovector tensor term coupling constants, with a fit protocol very similar to that of the successful SLy parameterizations. We analyze the impact of the tensor terms on a large variety of observables in spherical mean-field calculations, such as the spin-orbit splittings and single-particle spectra of doubly-magic nuclei, the evolution of spin-orbit splittings along chains of semi-magic nuclei, mass residuals of spherical nuclei, and known anomalies of charge radii. Our main conclusion is that the currently used central and spin-orbit parts of the Skyrme energy density functional are not flexible enough to allow for the presence of large tensor terms.

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来源期刊

Physical Review C PHYSICS, NUCLEAR-

CiteScore

5.80

自引率

35.50%

发文量

863

期刊介绍： Physical Review C (PRC) is a leading journal in theoretical and experimental nuclear physics, publishing more than two-thirds of the research literature in the field. PRC covers experimental and theoretical results in all aspects of nuclear physics, including: Nucleon-nucleon interaction, few-body systems Nuclear structure Nuclear reactions Relativistic nuclear collisions Hadronic physics and QCD Electroweak interaction, symmetries Nuclear astrophysics