Scientific Reports (Aug 2017)

Shedding new light on the Crab with polarized X-rays

  • M. Chauvin,
  • H.-G. Florén,
  • M. Friis,
  • M. Jackson,
  • T. Kamae,
  • J. Kataoka,
  • T. Kawano,
  • M. Kiss,
  • V. Mikhalev,
  • T. Mizuno,
  • N. Ohashi,
  • T. Stana,
  • H. Tajima,
  • H. Takahashi,
  • N. Uchida,
  • M. Pearce

DOI
https://doi.org/10.1038/s41598-017-07390-7
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 6

Abstract

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Abstract Strong magnetic fields, synchrotron emission, and Compton scattering are omnipresent in compact celestial X-ray sources. Emissions in the X-ray energy band are consequently expected to be linearly polarized. X-ray polarimetry provides a unique diagnostic to study the location and fundamental mechanisms behind emission processes. The polarization of emissions from a bright celestial X-ray source, the Crab, is reported here for the first time in the hard X-ray band (~20–160 keV). The Crab is a complex system consisting of a central pulsar, a diffuse pulsar wind nebula, as well as structures in the inner nebula including a jet and torus. Measurements are made by a purpose-built and calibrated polarimeter, PoGO+. The polarization vector is found to be aligned with the spin axis of the pulsar for a polarization fraction, PF = (20.9 ± 5.0)%. This is higher than that of the optical diffuse nebula, implying a more compact emission site, though not as compact as, e.g., the synchrotron knot. Contrary to measurements at higher energies, no significant temporal evolution of phase-integrated polarisation parameters is observed. The polarization parameters for the pulsar itself are measured for the first time in the X-ray energy band and are consistent with observations at optical wavelengths.