Pulsar Timing for the Fermi Gamma-ray Space Telescope

D. A. Smith; L. Guillemot; F. Camilo; I. Cognard; D. Dumora; C.; Espinoza; P. C. C. Freire; E. V. Gotthelf; A. K. Harding; G. B. Hobbs; S.; Johnston; V. M. Kaspi; M. Kramer; M. A. Livingstone; A. G. Lyne; R. N.; Manchester; F. E. Marshall; M. A. McLaughlin; A. Noutsos; S. M. Ransom; M. S.; E. Roberts; R. W. Romani; B. W. Stappers; G. Theureau; D. J. Thompson; S. E.; Thorsett; N. Wang; P. Weltevrede

arXiv:0810.1637·astro-ph·December 16, 2008

Pulsar Timing for the Fermi Gamma-ray Space Telescope

D. A. Smith, L. Guillemot, F. Camilo, I. Cognard, D. Dumora, C., Espinoza, P. C. C. Freire, E. V. Gotthelf, A. K. Harding, G. B. Hobbs, S., Johnston, V. M. Kaspi, M. Kramer, M. A. Livingstone, A. G. Lyne, R. N., Manchester, F. E. Marshall, M. A. McLaughlin, A. Noutsos

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TL;DR

This paper details a pulsar monitoring campaign for the Fermi Gamma-ray Space Telescope, aiming to detect gamma-ray pulsars and study neutron star populations, particle acceleration, and pulsar wind nebulae.

Contribution

It introduces a comprehensive pulsar timing approach for gamma-ray detection using Fermi LAT, including software verification and phase calculation accuracy.

Findings

01

Successful verification of pulsar phase calculations at microsecond precision

02

Monitoring of over two hundred pulsars with large spin-down powers

03

Enhanced detection prospects for gamma-ray pulsars with Fermi LAT

Abstract

We describe a comprehensive pulsar monitoring campaign for the Large Area Telescope (LAT) on the {\em Fermi Gamma-ray Space Telescope} (formerly GLAST). The detection and study of pulsars in gamma rays give insights into the populations of neutron stars and supernova rates in the Galaxy, into particle acceleration mechanisms in neutron star magnetospheres, and into the "engines" driving pulsar wind nebulae. LAT's unprecedented sensitivity between 20 MeV and 300 GeV together with its 2.4 sr field-of-view makes detection of many gamma-ray pulsars likely, justifying the monitoring of over two hundred pulsars with large spin-down powers. To search for gamma-ray pulsations from most of these pulsars requires a set of phase-connected timing solutions spanning a year or more to properly align the sparse photon arrival times. We describe the choice of pulsars and the instruments involved in the…

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