We calculate the effect of gravitational wave (GW) back reaction on realistic neutron stars (NS’s) undergoing torque-free precession. By “realistic” we mean that the NS is treated as a mostly fluid body with an elastic crust, as opposed to a rigid body. We find that GW’s damp NS wobble on a time scale ???2×105 yr [10-7/(?Id/I0)]2(kHz/?s)4, where ?s is the spin frequency and ?Id is the piece of the NS’s inertia tensor that “follows” the crust’s principal axis (as opposed to its spin axis). We give two different derivations of this result: one based solely on energy and angular momentum balance, and another obtained by adding the Burke-Thorne radiation reaction force to the Newtonian equations of motion. This problem was treated long ago by B...
This thesis investigates the effect of rapid accretion and differential rotation on neutron star osc...
Gravitational waves from oscillating neutron stars in axial symmetry are studied performing numerica...
With the detection of GW150914, the era of gravitational wave astronomy has commenced. One possible ...
We calculate the effect of gravitational wave (gw) back-reaction on realistic neutron stars (NS's) u...
This thesis is devoted to studying gravitational waves from “mountains” on neutron stars. It is, in...
In this paper we model the gravitational wave emission of a freely precessing neutron star. The aim ...
In this review we examine the dynamics and gravitational wave detectability of rotating strained neu...
Accreting neutron stars (NSs) have long been considered potential continuous gravitational-wave (GW)...
International audienceContext. Rapidly rotating neutron stars are an ideal laboratory to test models...
Fast rotating isolated neutron stars are strong sources of gravitational waves when deformed. One p...
We study the spindown of isolated neutron stars from initially rapid rotation rates, driven by two f...
The frequencies and damping times of neutron star (and quark star) oscillations have been computed u...
We study the effects of rotation on the quasi-normal modes (QNMs) of a newly born proto-neutron star...
It was recently reported that there exists a population of "glitch candidates" and "anti-glitch cand...
The gravitational waves that bathe the Earth presumably do not vary wildly in strength from year to ...
This thesis investigates the effect of rapid accretion and differential rotation on neutron star osc...
Gravitational waves from oscillating neutron stars in axial symmetry are studied performing numerica...
With the detection of GW150914, the era of gravitational wave astronomy has commenced. One possible ...
We calculate the effect of gravitational wave (gw) back-reaction on realistic neutron stars (NS's) u...
This thesis is devoted to studying gravitational waves from “mountains” on neutron stars. It is, in...
In this paper we model the gravitational wave emission of a freely precessing neutron star. The aim ...
In this review we examine the dynamics and gravitational wave detectability of rotating strained neu...
Accreting neutron stars (NSs) have long been considered potential continuous gravitational-wave (GW)...
International audienceContext. Rapidly rotating neutron stars are an ideal laboratory to test models...
Fast rotating isolated neutron stars are strong sources of gravitational waves when deformed. One p...
We study the spindown of isolated neutron stars from initially rapid rotation rates, driven by two f...
The frequencies and damping times of neutron star (and quark star) oscillations have been computed u...
We study the effects of rotation on the quasi-normal modes (QNMs) of a newly born proto-neutron star...
It was recently reported that there exists a population of "glitch candidates" and "anti-glitch cand...
The gravitational waves that bathe the Earth presumably do not vary wildly in strength from year to ...
This thesis investigates the effect of rapid accretion and differential rotation on neutron star osc...
Gravitational waves from oscillating neutron stars in axial symmetry are studied performing numerica...
With the detection of GW150914, the era of gravitational wave astronomy has commenced. One possible ...