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2 results

  • 2 - Telescope Techniques, Radio to TeV

  • from Part I - Discoveries and Techniques
  • Andrew Lyne, University of Manchester, Francis Graham-Smith, University of Manchester, Benjamin Stappers, University of Manchester
  • Book:
    Pulsar Astronomy
    Published online:
    21 July 2022
    Print publication:
    04 August 2022, pp 24-33

  • Summary

    Describes the diverse techniques used in telescopes for the very wide range of the electromagnetic spectrum covered by pulsar observations. Conventional telescopes for the visible range can be used with suitable high time resolution, while only the lowest energy x-rays can be focussed to form images. Higher x-ray and gamma-ray energies require individual photons to be detected and tracked. The highest energy gamma-rays are detected in Cerenkov air-shower arrays. In contrast to the photon detection of all high-energy radiation, radio telescopes and receivers treat radiation as waves with measurable amplitude and phase, allowing multiple beams to be formed in large phased arrays of radio telescopes.

  • Shock Geometry and Inverse Compton Emission from the Wind of a Binary Pulsar

  • Lewis Ball, Jennifer Dodd
  • Journal:
    Publications of the Astronomical Society of Australia / Volume 18 / Issue 1 / 2001
    Published online by Cambridge University Press:
    05 March 2013, pp. 98-104
    • Article
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  • PSR B1259 – 63 is a 47 ms radio pulsar with a high spin-down luminosity which is in a close, highly eccentric 3·5 yr orbit about a bright stellar companion. The binary system may be a detectable source of hard ã γ-rays produced by inverse Compton scattering of photons from the B2e star SS2883 by electrons and positrons in the pulsar wind. The star provides an enormous density of optical photons in the vicinity of the pulsar, particularly at epochs near periastron. We calculate the emission from the unshocked region of the pulsar wind, assuming that it terminates at a shock where it attains pressure balance with the companion’s wind. The spectra and light curves for the inverse Compton emission from the shock-terminated wind are compared with those for an unterminated wind. If the pulsar’s wind is weaker than that from the companion star, the termination of the wind decreases the inverse Compton flux, particularly near periastron. The termination shock geometry has the effect of decreasing the asymmetry of the γ-ray light curve around periastron, which arises because of the asymmetrical variation of the scattering angle.