Physical Review Research (Jan 2020)

Dual nature of magnetism in MnSi

  • A. Yaouanc,
  • P. Dalmas de Réotier,
  • B. Roessli,
  • A. Maisuradze,
  • A. Amato,
  • D. Andreica,
  • G. Lapertot

DOI
https://doi.org/10.1103/PhysRevResearch.2.013029
Journal volume & issue
Vol. 2, no. 1
p. 013029

Abstract

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The temperature dependence of the manganese magnetic moment and the spin-lattice relaxation rate, both measured by the muon spin relaxation technique in the magnetically ordered phase of the chiral intermetallic cubic MnSi system, is explained in terms of helimagnon excitations of a localized spin model. The two free parameters characterizing the helimagnon dispersion relation are determined. A combined analysis of the two data sets cannot be achieved using the self-consistent renormalization theory of spin fluctuations which assumes the magnetism of MnSi to arise uniquely from electronic bands. As a result of this work, MnSi is proposed to be a dual electronic system composed of localized and itinerant magnetic electrons. Besides, we note that the analysis framework can be applied to other helimagnets such as the magnetoelectric compound Cu_{2}OSeO_{3}.