4.7 Article

Glitches in four gamma-ray pulsars and inferences on the neutron star structure

Journal

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 511, Issue 1, Pages 425-439

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/mnras/stac026

Keywords

stars: neutron; pulsars: general; pulsars: individual: PSR J0835-4510 (Vela); pulsars: individual: PSR J1023-5746; pulsars: individual: PSR J2111+4606; pulsars: individual: PSR J2229+6114

Funding

  1. Scientific and Technological Research Council of Turkey (TuBTAK) [117F330]
  2. National Natural Science Foundation of China [U1838201, U1838202, U1838104, U1938103, U1938109, 11873080]

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This study presents timing solutions from observations of gamma-ray pulsars, identifying new glitches, analyzing their properties, and obtaining important information about the structure of neutron stars. The observed results are in qualitative agreement with the theoretical predictions.
We present timing solutions from the Fermi-LAT observations of gamma-ray pulsars PSR J0835 - 4510 (Vela), PSR J1023-5746, PSR J2111+4606, and PSR J2229+6114. Data ranges for each pulsar extend over a decade. From data analysis, we have identified a total of 20 glitches, 11 of which are new discoveries. Among them, 15 glitches are large ones with Delta nu/nu greater than or similar to 10(-6). PSR J1023-5746 is the most active pulsar with glitch activity parameter being A(g) = 14.5 x 10(-7) yr(-1) in the considered data span and should be a target for frequently glitching Vela-like pulsars in future observations. We have done fits within the framework of the vortex creep model for 16 glitches with Delta nu/nu greater than or similar to 10(-7). By theoretical analysis of these glitches, we are able to obtain important information on the structure of neutron star, including moments of inertia of the superfluid regions participated in glitches and coupling time-scales between various stellar components. The theoretical prediction for the time to the next glitch from the parameters of the previous one is found to be in qualitative agreement with the observed inter-glitch time-scales for the considered sample. Recoupling time-scales of the crustal superfluid are within the range of theoretical expectations and scale inversely with the spin-down rate of a pulsar. We also determined a braking index n = 2.63(30) for PSR J2229+6114 after glitch-induced contributions have been removed.

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