# Mini Volume Collapse as Evidence for a 3-Body Magnetic Polaron in   $Sm_{1-x}Eu_xS$

**Authors:** Daniel Schaller, Patrick G. LaBarre, Tiglet Besara, Ernst Bucher, Theo, Siegrist, and Arthur P. Ramirez

arXiv: 1905.04547 · 2019-10-09

## TL;DR

This study investigates the magnetic and transport properties of the $Sm_{1-x}Eu_xS$ series, revealing evidence of a three-body magnetic polaron through lattice constant deviations and intermediate valence behavior.

## Contribution

It provides experimental evidence for a 3-body magnetic polaron in $Sm_{1-x}Eu_xS$, highlighting parametric control of lattice parameters by magnetic moments.

## Key findings

- Lattice constant deviates below Vegard's law, indicating magnetic polaron effects.
- Smooth magnetic and transport interpolation across the series.
- Evidence of a three-body magnetic polaron in the material.

## Abstract

Samarium sulfide (SmS) is a non-magnetic narrow-gap (0.06 eV) semiconductor which undergoes a transition to a metallic intermediate valence state at 6.5 kbar. Europium sulfide (EuS) is a ferromagnetic semiconductor with a Curie temperature of 16K and a gap of 1.6 eV. Here we present a study of the lattice constant, magnetic susceptibility, and resistivity of the substitution series $Sm_{1-x}Eu_xS$ for 0 < x < 1. We observe a smooth interpolation of magnetic and transport behavior across the series, consistent with a virtual crystal scenario and Vegard's law. Surprisingly, however, the lattice constant deviates below Vegard's law in a manner that suggests parametric control of the Sm-Sm distance by the Eu moment in the manner of a magnetic polaron.

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Source: https://tomesphere.com/paper/1905.04547