We describe a new instability that may trigger the global unpinning of vortices in a spinning neutron star, leading to the transfer of angular momentum from the superfluid component to the star’s crust. 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 simple model agrees well with the observed glitch data. This new idea should stimulate work on more detailed neutron star models, which would account for the crustal shear stresses and magnetic field effects we have ignored
Giant pulsar frequency glitches as detected in the emblematic Vela pulsar have long been thought to ...
11 pages, 6 figures, submitted to PRDInternational audienceGiant pulsar frequency glitches as detect...
Pulsar glitches provide a unique way to study neutron star microphysics because short post-glitch dy...
The standard explanation for large pulsar glitches involves transfer of angular momentum from an int...
Mature neutron stars are expected to have several superfluid components. Strong evidence for this is...
Many radio pulsars exhibit glitches wherein the star\u27s spin rate increases fractionally by ~10-10...
© 2020 George Alec William HowittGlitches are sudden jumps in the spin frequency of pulsars that occ...
Context. Pulsars show a steady decrease in their rotational frequency, occasionally interrupted by s...
Neutron stars are unique cosmic laboratories in which fundamental physics can be probed in extreme c...
Large pulsar frequency glitches are generally interpreted as sudden transfers of angular momentum be...
Abstract Timing of the Crab and Vela pulsars have recently revealed very peculiar evolutions of thei...
International audienceWe describe recent progress in the modelling of realistic equilibrium configur...
Pinning of superfluid vortices is predicted to prevail throughout much of a neu-tron star. Based on ...
In a pulsar, there are gaps and difficulties in our knowledge of glitches, mainly because of the ab...
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 ...
11 pages, 6 figures, submitted to PRDInternational audienceGiant pulsar frequency glitches as detect...
Pulsar glitches provide a unique way to study neutron star microphysics because short post-glitch dy...
The standard explanation for large pulsar glitches involves transfer of angular momentum from an int...
Mature neutron stars are expected to have several superfluid components. Strong evidence for this is...
Many radio pulsars exhibit glitches wherein the star\u27s spin rate increases fractionally by ~10-10...
© 2020 George Alec William HowittGlitches are sudden jumps in the spin frequency of pulsars that occ...
Context. Pulsars show a steady decrease in their rotational frequency, occasionally interrupted by s...
Neutron stars are unique cosmic laboratories in which fundamental physics can be probed in extreme c...
Large pulsar frequency glitches are generally interpreted as sudden transfers of angular momentum be...
Abstract Timing of the Crab and Vela pulsars have recently revealed very peculiar evolutions of thei...
International audienceWe describe recent progress in the modelling of realistic equilibrium configur...
Pinning of superfluid vortices is predicted to prevail throughout much of a neu-tron star. Based on ...
In a pulsar, there are gaps and difficulties in our knowledge of glitches, mainly because of the ab...
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 ...
11 pages, 6 figures, submitted to PRDInternational audienceGiant pulsar frequency glitches as detect...
Pulsar glitches provide a unique way to study neutron star microphysics because short post-glitch dy...