Effect of BCS pairing on entrainment in neutron superfluid current in neutron star crust

Abstract

The relative current density ni of conduction neutrons in a neutron star crust beyond the neutron drip threshold can be expected to be related to the corresponding particle momentum covector pi by a linear relation of the form ni=Kijpj in terms of a physically well defined mobility tensor Kij. This result is describable as an ``entrainment'' whose effect - wherever the crust lattice is isotropic - will simply be to change the ordinary neutron mass m to an effective mass m such that in terms of the relevant number density n of unconfined neutrons we shall have Kij=n/mγij. In a preceding analysis based on an independent particle treatment using Bloch boundary conditions to obtain the distribution of energy Ek and associated group velocity vki=∂ Ek/∂ ki as a function of wavenumber ki, it was shown that the mobility tensor would be given by Kij∫ d3 k vki vkjδ\Ek-μ\, where μ is the Fermi energy. Using the approach due to Bogoliubov, it is shown here that the effect of BCS pairing with an energy gap F and corresponding quasiparticle energy function k=(Ek-μ)2+F2 will just be to replace the Dirac distributional integrand by a smoother distribution : Kij ∫ d3 k vki vkj F2 /3k. It is also shown how the pairing condensation gives rise to superfluidity in the technical sense of providing (meta) stability against resistive perturbations for a current that is not too strong (its momentum pi must be small enough to give 2|pi vki|<k2/|Ek-μ|$ for all modes). It is concluded that the prediction of a very large effective mass enhancement in the middle layers of the crust will not be significantly affected by the pairing mechanism.

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