par Cheung, Ling;Lin, Lap-Ming;Chamel, Nicolas
Référence Physical Review D, 110, 8, page (083021)
Publication Publié, 2024-10-08
Référence Physical Review D, 110, 8, page (083021)
Publication Publié, 2024-10-08
Article révisé par les pairs
Résumé : | Torsional oscillations of magnetized neutron stars have been well studied since they may be relevant to the physical interpretation of some of the observed quasiperiodic oscillations in the magnetar giant flares. In the crustal region of a magnetar, the strong magnetic field can alter the equation of state and composition due to the Landau-Rabi quantization of electron motion. In this paper, we study this effect on the crust-confined, torsional oscillation modes of neutron stars with mixed poloidal-toroidal magnetic fields in general relativity under the Cowling approximation. Furthermore, the inner and outer crusts are treated consistently based on the nuclear-energy density functional theory. Depending on the magnetic-field configurations, we find that the Landau-Rabi quantization of electrons can change the frequencies of the fundamental torsional oscillation mode of 1.4 solar masses neutron star models with a normal fluid core by about 10% when the magnetic field strength at the pole reaches the order of 1016 G. The shift can even approach 20% at a field strength of 1015 G for neutron stars with a simple model of superconducting core where the magnetic field is assumed to be expelled completely. |