Physical Review Research (Jun 2020)

Ultra-high precision x-ray polarimetry with artificial diamond channel cuts at the beam divergence limit

  • Hendrik Bernhardt,
  • Annika T. Schmitt,
  • Benjamin Grabiger,
  • Berit Marx-Glowna,
  • Robert Loetzsch,
  • Hans-Christian Wille,
  • Dimitrios Bessas,
  • Aleksandr I. Chumakov,
  • Rudolf Rüffer,
  • Ralf Röhlsberger,
  • Thomas Stöhlker,
  • Ingo Uschmann,
  • Gerhard G. Paulus,
  • Kai S. Schulze

DOI
https://doi.org/10.1103/PhysRevResearch.2.023365
Journal volume & issue
Vol. 2, no. 2
p. 023365

Abstract

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We report on the use of synthetic single-crystal diamonds for high definition x-ray polarimetry. The diamonds are precision mounted to form artificial channel-cut crystals (ACCs). Each ACC supports four consecutive reflections with a scattering angle 2Θ_{B} of 90^{∘}. We achieved a polarization purity of 3.0×10^{−10} at beamline ID18 of the European Synchrotron Radiation Facility (ESRF). When the x-ray beam's horizontal divergence was reduced through additional collimation from 17 to 8.4μrad, the polarization purity improved to 1.4×10^{−10}. Precision x-ray polarimetry thus has reached the limit, where the purity is determined by the divergence of the beam. In particular, this result is important for polarimetry at fourth generation x-ray sources, which provide diffraction-limited x-ray beams. The sensitivity expected as a consequence of the present work will pave the way for exploring new physics such as the investigation of vacuum birefringence.