Formation of Magnetic Microphases in Ca$_3$Co$_2$O$_6$

Y. Kamiya; C. D. Batista

arXiv:1206.6506·cond-mat.str-el·August 10, 2012

Formation of Magnetic Microphases in Ca$_3$Co$_2$O$_6$

Y. Kamiya, C. D. Batista

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TL;DR

This paper investigates the formation of magnetic microphases in Ca$_3$Co$_2$O$_6$ using quantum Monte Carlo simulations and mean field theory, revealing temperature-dependent spin structures and metastable states that explain slow magnetic dynamics.

Contribution

It introduces a detailed model for Ca$_3$Co$_2$O$_6$ that explains microphase formation and slow dynamics, extending understanding of frustrated magnetic systems.

Findings

01

Microphases form along chains for T between T_CI and T_c.

02

Metastable states cause very slow magnetic dynamics.

03

SDW wavelength varies continuously with temperature.

Abstract

We study a frustrated quantum Ising model relevant for Ca $_{3}$ Co $_{2}$ O $_{6}$ 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 $T \leq T_{CI}$ . In contrast, long-period spin-density-wave (SDW) {\it microphases} are stabilized along the chains for $T_{CI} < T < T_{c}$ . 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 Ca $_{3}$ Co $_{2}$ O $_{6}$ . We also discuss implications of microphases for the related multiferroic compounds Ca $_{3}$ CoMnO $_{6}$ and Lu $_{2}$ MnCoO $_{6}$ .

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