The Astrophysical Journal Letters (Jan 2024)

Modeling the Radial Distribution of Pulsars in the Galaxy

  • J. T. Xie,
  • J. B. Wang,
  • N. Wang,
  • R. Manchester,
  • G. Hobbs

DOI
https://doi.org/10.3847/2041-8213/ad2850
Journal volume & issue
Vol. 963, no. 2
p. L39

Abstract

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The Parkes 20 cm multibeam pulsar surveys have discovered nearly half of the known pulsars and revealed many distant pulsars with high dispersion measures. Using a sample of 1301 pulsars from these surveys, we have explored the spatial distribution and birth rate of normal pulsars. The pulsar distances used to calculate the pulsar surface density are estimated from the YMW16 electron-density model. When estimating the impact of the Galactic background radiation on our survey, we projected pulsars in the galaxy onto the Galactic plane, assuming that the flux density distribution of pulsars is uniform in all directions, and utilized the most up-to-date background temperature map. We also used an up-to-date version of the ATNF Pulsar Catalogue to model the distribution of pulsar flux densities at 1400 MHz. We derive an improved radial distribution for the pulsar surface density projected onto the Galactic plane, which has a maximum value at ∼4 kpc from the Galactic center. We also derive the local surface density and birth rate of pulsars, obtaining 47 ± 5 kpc ^−2 and ∼4.7 ± 0.5 kpc ^−2 Myr ^−1 , respectively. For the total number of potentially detectable pulsars in the galaxy, we obtain (1.1 ± 0.2) × 10 ^4 and (1.1 ± 0.2)×10 ^5 before and after applying the Tauris & Manchester beaming correction model. The radial distribution function is used to estimate the proportion of pulsars in each spiral arm and the Galactic center.

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