Interplay of lattice, spin, and dipolar properties in CoTeMoO6: Emergence of Griffiths-like

The physical properties of the noncentrosymmetric and quasi-two-dimensional canted antiferromagnetic material CoTeMoO6 (CTMO) are studied. We unravel a spectrum of intriguing phenomena, including a correlated short-range-ordered Griffiths-like phase near T-G similar to 64 K, a sharp step-like metamagnetic behavior of isothermal magnetization induced by a spin-flop transition at a critical magnetic field H-c similar to 1.2 T, a strong dielectric anomaly, a pronounced magnetodielectric effect, and the associated weak magnetoelectric coupling at its magnetic transition temperature, T-N similar to 23.4 K. The crucial roles played by spin canting in CTMO are revealed in the aforementioned strongly entangled behavior of the spin and dipolar order parameters. The observed magnetostriction effect coupled with spin-phonon coupling seems to be a key factor in influencing the observed magnetodielectric effect. In addition, our theoretical first-principles calculations predict an insulating state with a canted antiferromagnetic spin configuration that matches well with the experimental results.

Automated summary

This study investigates the physical properties of the noncentrosymmetric and quasi-two-dimensional canted antiferromagnetic material CoTeMoO6 (CTMO), revealing a spectrum of intriguing phenomena and the crucial role played by spin canting.