Chiral fluctuations in triangular antiferromagnets at T TN
Abstract
Chiral fluctuations in triangular antiferromagnets (TAFs) at T TN are studied theoretically. The case of a ferromagnetic interaction along c axis (which is directed perpendicular to the plane of the lattice), Dzyaloshinskii-Moriya interaction D\| c and a weak magnetic field H\| c is considered in detail. Previously, this model has been proposed to describe quantum TAF CsCuCl3. Expressions for dynamical chirality (DC) are derived within the linear spin-wave approximation. In contrast to non-frustrated antiferromagnets, DC is found to be nonzero even at D,H=0 in a one-domain sample. We argue that this unusual behavior stems from the fact that a ground state of XY and Heisenberg TAFs is characterized by an axial vector along which DC is directed.
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