Effect of the splitting of the neutron and proton effective masses on the nuclear symmetry energy at finite temperatures

Effect of the splitting of the neutron and proton effective masses on the nuclear symmetry energy at finite temperatures

We present the temperature and density dependence of symmetry energy for nuclear matter at finite temperatures based on the thermodynamics approach with the Skyrme energy density functional. We first classify the Skyrme interactions into 7 groups according to their ranges of the variation of neutron...

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Bibliographic Details
Published in:Physics letters. B Vol. 697; no. 3; pp. 246 - 250
Main Authors: Ou, Li, Li, Zhuxia, Zhang, Yingxun, Liu, Min
Format: Journal Article
Language:English
Published: Kidlington Elsevier B.V 07-03-2011
Elsevier
Subjects:
Asymmetry
Density
Energy (nuclear)
Exact sciences and technology
Mathematical analysis
Nuclear matter
Nuclear physics
Nuclear symmetry energy
Nuclear symmetry energy at finite temperature
Physics
Skyrme density functional
Splitting
Splitting of neutron and proton effective masses
Symmetry
The physics of elementary particles and fields
Nuclear symmetry energy
Skyrme density functional
Splitting of neutron and proton effective masses
Nuclear symmetry energy at finite temperature
Protons
Temperature dependence
Neutron density
Neutrons
Energy density
High temperature
Thermodynamics
Nuclear energy
Density functional
Transition energy
Correlations
Effective mass
Nuclear matter
Low temperature
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Summary:We present the temperature and density dependence of symmetry energy for nuclear matter at finite temperatures based on the thermodynamics approach with the Skyrme energy density functional. We first classify the Skyrme interactions into 7 groups according to their ranges of the variation of neutron and proton effective masses with densities in neutron matter limit (99.99 percent neutron in the matter). We find that there is an obvious correlation between the temperature dependence of the symmetry energy and the splitting of neutron and proton effective mass. For the Skyrme interactions with mn⁎>mp⁎ and the strong neutron and proton effective mass splitting in asymmetric nuclear matter, a transition of symmetry energy from decreasing with temperature at low densities to increasing with temperature at high densities appears. For other Skyrme interactions, we do not observe this phenomenon and the symmetry energy decreases with temperature in the entire density region.
Bibliography:ObjectType-Article-2
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content type line 23
ISSN:0370-2693
1873-2445
DOI:10.1016/j.physletb.2011.01.062