Superfluid density in disordered pasta phases in neutron star crusts
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Superfluid density in disordered pasta phases in neutron star crusts. / Zhang, Zhao-Wen; Pethick, C. J.
I: Physical Review C, Bind 105, Nr. 5, 055807, 23.05.2022.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Superfluid density in disordered pasta phases in neutron star crusts
AU - Zhang, Zhao-Wen
AU - Pethick, C. J.
PY - 2022/5/23
Y1 - 2022/5/23
N2 - In the inner crust of neutron stars one expects phases in which nuclei adopt rodlike and platelike forms, so-called pasta phases. For ordered phases, the superfluid density of nucleons is anisotropic and in this paper we calculate the effective superfluid density of disordered pasta phases. We use an effective medium approach which parallels that previously used for calculating the electrical conductivity of terrestrial matter. We allow for the effect of entrainment, the fact that the current density of one species of nucleon depends on the gradient of the phase of the condensate pair wave function not only of the same species but also of the other species. We find that for protons, the results of the effective medium formalism can be quite different from those of simple approximations.
AB - In the inner crust of neutron stars one expects phases in which nuclei adopt rodlike and platelike forms, so-called pasta phases. For ordered phases, the superfluid density of nucleons is anisotropic and in this paper we calculate the effective superfluid density of disordered pasta phases. We use an effective medium approach which parallels that previously used for calculating the electrical conductivity of terrestrial matter. We allow for the effect of entrainment, the fact that the current density of one species of nucleon depends on the gradient of the phase of the condensate pair wave function not only of the same species but also of the other species. We find that for protons, the results of the effective medium formalism can be quite different from those of simple approximations.
KW - CONSTANTS
U2 - 10.1103/PhysRevC.105.055807
DO - 10.1103/PhysRevC.105.055807
M3 - Journal article
VL - 105
JO - Physical Review C
JF - Physical Review C
SN - 2469-9985
IS - 5
M1 - 055807
ER -
ID: 315530122