Spin diffusive modes and thermal transport in neutron star crusts

Abstract

In this contribution we first review a method for obtaining the collective modes of pair-correlated neutron matter as found in a neutron star inner crust. We discuss two classes of modes corresponding to density and spin perturbations with energy spectra ω = ω0 + α q2, where ω0 = 2 is the threshold frequency and is the gap in the neutron fluid spectrum. For characteristic values of Landau parameters in neutron star crusts the exitonic density modes have α < 0, therefore they live below the pair-breaking continuum ω0 and are undamped. For spin diffusive modes α > 0 and they exist above ω0 which implies that these modes are damped. As an application of these findings we compute the thermal conductivity due to spin diffusive modes and show that it scales as T1/2 (-2ω0/T) in the case where their two-by-two scattering cross-section is weakly dependent on temperature.