Magnetic and Structural Properties of A-Site Ordered Chromium Spinel Sulfides: Alternating Antiferromagnetic and Ferromagnetic Interactions in the Breathing Pyrochlore Lattice

TL;DR

This study investigates the magnetic and structural properties of specific breathing pyrochlore sulfides, revealing alternating magnetic interactions and diverse magnetization behaviors, highlighting complex frustration-driven physics.

Contribution

It provides the first detailed analysis of magnetic interactions and structural ordering in A-site ordered chromium spinel sulfides with breathing pyrochlore lattices.

Findings

Alternating antiferromagnetic and ferromagnetic interactions confirmed.

Distinct magnetization hysteresis behaviors observed among compounds.

Geometrical frustration leads to diverse ground states.

Abstract

We report a comprehensive study on the magnetic and structural properties of the spinel sulfides LiInCr4S8, LiGaCr4S8, and CuInCr4S8, where Li+/Cu+ and Ga3+/In3+ ions form a zinc-blende-type order. On the basis of synchrotron X-ray diffraction and magnetization data obtained using polycrystalline samples, these three sulfides are suggested to be breathing pyrochlore magnets with alternating antiferromagnetic and ferromagnetic interactions on the small and large tetrahedra, respectively. The measured magnetization processes of the three sulfides up to 72 T are significantly different. The magnetization curves of LiInCr4S8 and CuInCr4S8 have large hysteresis loops with different shapes, while there is no hysteresis in that of LiGaCr4S8. Geometrical frustration of the small tetrahedron is likely to give rise to a wide variety of ground states, indicating the rich physics in these antiferromagnetic-ferromagnetic breathing pyrochlore magnets.