Formation of Magnetic Microphases in Ca3Co2O6
Abstract
We study a frustrated quantum Ising model relevant for Ca3Co2O6 that consists of a triangular lattice of weakly-coupled ferromagnetic (FM) chains. According to our quantum Monte Carlo simulations, the chains become FM and form a three-sublattice "up-up-down" structure for T ≤ TCI. In contrast, long-period spin-density-wave (SDW) microphases are stabilized along the chains for TCI < T < Tc. Our mean field solutions reveal a quasi-continuous temperature dependence of the SDW wavelength, implying the existence of metastable states that explain the very slow dynamics observed in Ca3Co2O6. We also discuss implications of microphases for the related multiferroic compounds Ca3CoMnO6 and Lu2MnCoO6.
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