Physical Review X (Feb 2020)

Observation of a Charge-Neutral Muon-Polaron Complex in Antiferromagnetic Cr_{2}O_{3}

  • M. H. Dehn,
  • J. K. Shenton,
  • S. Holenstein,
  • Q. N. Meier,
  • D. J. Arseneau,
  • D. L. Cortie,
  • B. Hitti,
  • A. C. Y. Fang,
  • W. A. MacFarlane,
  • R. M. L. McFadden,
  • G. D. Morris,
  • Z. Salman,
  • H. Luetkens,
  • N. A. Spaldin,
  • M. Fechner,
  • R. F. Kiefl

DOI
https://doi.org/10.1103/PhysRevX.10.011036
Journal volume & issue
Vol. 10, no. 1
p. 011036

Abstract

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We report a comprehensive muon spin rotation (μSR) study of the prototypical magnetoelectric antiferromagnet Cr_{2}O_{3}. We find the positively charged muon (μ^{+}) occupies several distinct interstitial sites and displays a rich dynamic behavior involving local hopping, thermally activated site transitions, and the formation of a charge-neutral complex composed of a muon and an electron polaron. The discovery of such a complex has implications for the interpretation of μSR spectra in a wide range of magnetic oxides and opens a route to study the dopant characteristics of interstitial hydrogen impurities in such materials. We address implications arising from implanting a μ^{+} into a linear magnetoelectric and discuss the challenges of observing a local magnetoelectric effect generated by the charge of the muon.