# The origin of fine structure in magnetization curve of   $\alpha$-CoV$_2$O$_6$

**Authors:** Yu. B. Kudasov, R. V. Kozabaranov

arXiv: 1705.03234 · 2018-08-01

## TL;DR

This paper models the origin of multiple magnetization plateaus in $	ext{α-CoV}_2	ext{O}_6$, attributing them to domain boundary transformations in a highly anisotropic triangular lattice of Ising chains, explaining complex magnetic behaviors.

## Contribution

The paper introduces a model linking domain boundary transformations to the observed magnetization steps in $	ext{α-CoV}_2	ext{O}_6$, highlighting the role of anisotropic domain structures.

## Key findings

- Multiple magnetization plateaus explained by domain boundary dynamics.
- Strong anisotropy affects metastable state lifetimes.
- Magnetization curve depends on magnetic field sweep time.

## Abstract

Multiple field-induced plateaus in $\alpha$-CoV$_2$O$_6$ at low temperatures were revealed earlier by M. Lenertz et al. [J. Phys. Chem. C 115, 17190 (2011)] and carefully investigated recently by M. Nandi and P. Mandal [J. Appl. Phys. 119, 133904 (2016)]. Four equidistant steps were observed in the magnetization curve. We present a model to describe this phenomenon. A magnetic structure of this substance is formed by highly anisotropic triangular lattice of Ising chains running along the $\bf{b}$ axis. Due to a three-fold degeneracy of three-sublattice magnetic ordering, domain boundaries appear. Their transformation under magnetic field variation leads to two additional steps in the 1/3 magnetization plateau and gives rise to complex magnetic behavior observed experimentally. The domain structure in $\alpha$-CoV$_2$O$_6$ occurs to be strongly anisotropic because a lifetime of the metastable states depends greatly on the configuration orientation. A strong dependence of the magnetization curve on magnetic field sweep time is predicted.

## Full text

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## Figures

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## References

23 references — full list in the complete paper: https://tomesphere.com/paper/1705.03234/full.md

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Source: https://tomesphere.com/paper/1705.03234