The standard explanation for large pulsar glitches involves transfer of angular momentum from an internal superfluid component to the star's crust. This model requires an instability to trigger the sudden unpinning of the vortices by means of which the superfluid rotates. This Letter describes a new instability that may play this role. The instability, which is associated with the inertial r-modes of a superfluid neutron star, sets in once the rotational lag in the system reaches a critical level. We demonstrate that our model is in good agreement with observed glitch data, suggesting that the superfluid r-mode instability may indeed be the mechanism that triggers large pulsar glitches
International audienceWe describe recent progress in the modelling of realistic equilibrium configur...
In this dissertation I discuss how observations of the maximum glitch occurred in a certain pulsar p...
We consider a new mechanism for damping the oscillations of a mature neutron star. The new dissipati...
We describe a new instability that may trigger the global unpinning of vortices in a spinning neutro...
Mature neutron stars are expected to have several superfluid components. Strong evidence for this is...
© 2020 George Alec William HowittGlitches are sudden jumps in the spin frequency of pulsars that occ...
In this paper, we consider a simple two-fluid model for pulsar glitches. We derive the basic equatio...
In a pulsar, there are gaps and difficulties in our knowledge of glitches, mainly because of the ab...
Many radio pulsars exhibit glitches wherein the star\u27s spin rate increases fractionally by ~10-10...
Neutron stars are unique cosmic laboratories in which fundamental physics can be probed in extreme c...
11 pages, 6 figures, submitted to PRDInternational audienceGiant pulsar frequency glitches as detect...
Neutron stars are the most compact known stars; their cores are of higher density than an atomic nuc...
Giant pulsar frequency glitches as detected in the emblematic Vela pulsar have long been thought to ...
Although pulsars are some of the most stable clocks in the Universe, many of them are observed to ‘g...
Large pulsar glitches seem to be common to all radio pulsars and to exhibit a universal behaviour co...
International audienceWe describe recent progress in the modelling of realistic equilibrium configur...
In this dissertation I discuss how observations of the maximum glitch occurred in a certain pulsar p...
We consider a new mechanism for damping the oscillations of a mature neutron star. The new dissipati...
We describe a new instability that may trigger the global unpinning of vortices in a spinning neutro...
Mature neutron stars are expected to have several superfluid components. Strong evidence for this is...
© 2020 George Alec William HowittGlitches are sudden jumps in the spin frequency of pulsars that occ...
In this paper, we consider a simple two-fluid model for pulsar glitches. We derive the basic equatio...
In a pulsar, there are gaps and difficulties in our knowledge of glitches, mainly because of the ab...
Many radio pulsars exhibit glitches wherein the star\u27s spin rate increases fractionally by ~10-10...
Neutron stars are unique cosmic laboratories in which fundamental physics can be probed in extreme c...
11 pages, 6 figures, submitted to PRDInternational audienceGiant pulsar frequency glitches as detect...
Neutron stars are the most compact known stars; their cores are of higher density than an atomic nuc...
Giant pulsar frequency glitches as detected in the emblematic Vela pulsar have long been thought to ...
Although pulsars are some of the most stable clocks in the Universe, many of them are observed to ‘g...
Large pulsar glitches seem to be common to all radio pulsars and to exhibit a universal behaviour co...
International audienceWe describe recent progress in the modelling of realistic equilibrium configur...
In this dissertation I discuss how observations of the maximum glitch occurred in a certain pulsar p...
We consider a new mechanism for damping the oscillations of a mature neutron star. The new dissipati...