# Antiferromagnetism and the emergence of frustration in saw-tooth lattice   chalcogenide olivines Mn$_2$SiS$_{4-x}$Se$_x$ ($x$ = 0 $\textendash$ 4)

**Authors:** H. Nhalil, R. Baral, B. O. Khamala, A. Cosio, S. R. Singamaneni, M., Fitta, D. Antonio, K. Gofryk, R. R. Zope, T. Baruah, B. Saparov, and H. S., Nair

arXiv: 1905.01037 · 2019-05-06

## TL;DR

This study investigates the magnetic properties of Mn-based olivine chalcogenides with a saw-tooth lattice, revealing antiferromagnetic behavior, spin fluctuations, and a transition from long-range to short-range magnetic order as selenium content increases.

## Contribution

It provides detailed experimental and theoretical analysis of how selenium substitution affects magnetism and electronic structure in Mn$_2$SiS$_{4-x}$Se$_x$, highlighting the emergence of frustration and short-range order.

## Key findings

- Transition temperature decreases with Se-content from 86K to 66K.
- Presence of magnetic anomalies and irreversibilities at low temperatures.
- Density functional theory indicates antiferromagnetic ground state with ferromagnetic in-plane coupling.

## Abstract

The magnetism in the saw-tooth lattice of Mn in the olivine chalcogenides, Mn$_2$SiS$_{4-x}$Se$_x$ ($x$ = 1$\textendash$4) is studied in detail by analyzing their magnetization, specific heat and thermal conductivity properties and complemented with density functional theory calculations. The air-stable chalcogenides are antiferromagnets and show a linear trend in the transition temperature, $T_N$ as a function of Se-content ($x$) which shows a decrease from $T_N \approx$ 86~K for {\mss} to 66~K for {\msse}. Additional new magnetic anomalies are revealed at low temperatures for all the compositions. Magnetization irreversibilities are also observed as a function of $x$. The specific heat and the magnetic entropy indicate the presence of short-range spin fluctuations in Mn$_2$SiS$_{4-x}$Se$_x$. A spin-flop antiferromagnetic phase transition in the presence of applied magnetic field is present in Mn$_2$SiS$_{4-x}$Se$_x$, where the critical field for the spin flop increases from $x$ = 0 towards 4 in a non-linear fashion. Density functional theory calculations show that an overall antiferromagnetic structure with ferromagnetic coupling of the spins in the $ab$-plane minimizes the total energy. The band structures calculated for \mss\ and \msse\ reveal features near the band edges similar to those reported for Fe-based olivines suggested as thermoelectrics; however the experimentally determined thermal transport data do not support superior thermoelectric features. The transition from long-range magnetic order in \mss\ to short-range order and spin fluctuations in \msse\ is explained using the variation of the Mn-Mn distances in the triangle units that constitutes the saw-tooth lattice upon progressive replacement of sulphur with selenium.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1905.01037/full.md

## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1905.01037/full.md

## References

50 references — full list in the complete paper: https://tomesphere.com/paper/1905.01037/full.md

---
Source: https://tomesphere.com/paper/1905.01037