Dynamical tides in superfluid neutron stars

Abstract: We study the tidal response of a superfluid neutron star in a binary system, focussing on Newtonian models with superfluid neutrons present throughout the star's core and the inner crust. Within the two-fluid formalism, we consider the main aspects that arise from the presence of different regions inside the star, with particular focus on the various interfaces. Having established the relevant theory, we determine the tidal excitation of the most relevant oscillation modes during binary inspiral. Our results s… Show more

“…However, as the bodies get closer to one another, the dynamics become important [11,78]. Presently, the dynamical problem is comparatively less well understood and useful progress can still be made in Newtonian gravity [79][80][81][82][83][84][85][86][87][88], where the effects of rotation have been studied in the context of resonant mode excitation by the orbital motion [89][90][91][92], and post-Newtonian theory [93][94][95][96][97][98][99]. In the relativistic case, the treatment of a non-static exterior gravitational field is a demanding exercise.…”

Rotating Love: The dynamical tides of spinning Newtonian stars

“…However, as the bodies get closer to one another, the dynamics become important [11,78]. Presently, the dynamical problem is comparatively less well understood and useful progress can still be made in Newtonian gravity [79][80][81][82][83][84][85][86][87][88], where the effects of rotation have been studied in the context of resonant mode excitation by the orbital motion [89][90][91][92], and post-Newtonian theory [93][94][95][96][97][98][99]. In the relativistic case, the treatment of a non-static exterior gravitational field is a demanding exercise.…”

Rotating Love: The dynamical tides of spinning Newtonian stars