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Incommensurate antiferromagnetism in a pure spin system via cooperative organization of local and itinerant moments.


ABSTRACT: Materials with strong correlations are prone to spin and charge instabilities, driven by Coulomb, magnetic, and lattice interactions. In materials that have significant localized and itinerant spins, it is not obvious which will induce order. We combine electrical transport, X-ray magnetic diffraction, and photoemission studies with band structure calculations to characterize successive antiferromagnetic transitions in GdSi. GdSi has both sizable local moments and a partially nested Fermi surface, without confounding contributions from orbital effects. We identify a route to incommensurate order where neither type of moment dominates, but is rooted in cooperative feedback between them. The nested Fermi surface of the itinerant electrons induces strong interactions between local moments at the nesting vector, whereas the ordered local moments in turn provide the necessary coupling for a spin-density wave to form among the itinerant electrons. This mechanism echoes the cooperative interactions between electrons and ions in charge-density-wave materials, and should be germane across a spectrum of transition-metal and rare-earth intermetallic compounds.

SUBMITTER: Feng Y 

PROVIDER: S-EPMC3587267 | biostudies-other | 2013 Feb

REPOSITORIES: biostudies-other

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Incommensurate antiferromagnetism in a pure spin system via cooperative organization of local and itinerant moments.

Feng Yejun Y   Wang Jiyang J   Silevitch D M DM   Mihaila B B   Kim J W JW   Yan J-Q JQ   Schulze R K RK   Woo Nayoon N   Palmer A A   Ren Y Y   van Wezel Jasper J   Littlewood P B PB   Rosenbaum T F TF  

Proceedings of the National Academy of Sciences of the United States of America 20130211 9


Materials with strong correlations are prone to spin and charge instabilities, driven by Coulomb, magnetic, and lattice interactions. In materials that have significant localized and itinerant spins, it is not obvious which will induce order. We combine electrical transport, X-ray magnetic diffraction, and photoemission studies with band structure calculations to characterize successive antiferromagnetic transitions in GdSi. GdSi has both sizable local moments and a partially nested Fermi surfac  ...[more]

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