Hidden glassy behaviors in an ideal Heisenberg Kagomé antiferromagnet
Abstract
Dynamics of classical Heisenberg spins, Si=( si,Siz), on the Kagomé lattice has been studied. An ideal Heisenberg Kagomé antiferromagnet is known to remain disordered down to T=0 due to the macroscopic degeneracy of the ground state. Through the study, however, we find that Si and their planar components si behave in a qualitatively different way and especially planar spins ( si) show the exotic glass-like transition in the very low temperature T 0.003J (J: spin exchange). The glassy behaviors of si would be found to be driven by the spin-nematic fluctuations, different from ordinary spin glasses by disorders or anisotropies.
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