Role of Antisymmetric Exchange in Selecting Magnetic Chirality in Ba$_3$NbFe$_3$Si$_2$O$_{14}$

A. Ozarowski; A. Poto\v{c}nik; A. Zorko; J. van Tol; M. Pregelj; P. Lejay; R. Ballou; S. Petit; V. Simonet

arxiv: 1108.1390 · v2 · pith:CUBRWIRLnew · submitted 2011-08-05 · ❄️ cond-mat.str-el

Role of Antisymmetric Exchange in Selecting Magnetic Chirality in Ba₃NbFe₃Si₂O₁₄

A. Zorko , M. Pregelj , A. Poto\v{c}nik , J. van Tol , A. Ozarowski , V. Simonet , P. Lejay , S. Petit

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R. Ballou

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classification ❄️ cond-mat.str-el

keywords magneticanisotropygroundselectingstateuniqueacentricallows

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We present electron spin resonance (ESR) investigation of the acentric \FeLang, featuring a unique single-domain double-chiral magnetic ground state. Combining simulations of the ESR line-width anisotropy and the antiferromagnetic-resonance modes allows us to single out the Dzyaloshinsky-Moriya (DM) interaction as the leading magnetic anisotropy term. We demonstrate that the rather minute out-of-plane DM component $d_c=45$ mK is responsible for selecting a unique ground state, which endures thermal fluctuations up to astonishingly high temperatures.

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Role of Antisymmetric Exchange in Selecting Magnetic Chirality in Ba₃NbFe₃Si₂O₁₄

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