Universal Connection of magnetic exchange and structural behavior under pressure in chromium spinels.

Ilias Efthimiopoulos; Indiras Khatri; Z. T. Y. T. Y. Liu; Sanjay V Khare; Pankaj Sarin; Indiras Khatri; Indiras Khatri; Zhang Dongzhou; Yuejian Wang

Universal Connection of magnetic exchange and structural behavior under pressure in chromium spinels.

ORAL

Abstract

We have conducted high-pressure x-ray diffraction studies on the MnCr2O4 and NiCr2O4 spinels at room temperature [1]. Both compounds undergo pressure-induced structural transitions into diverse tetragonal modifications. Based on these experimental observations and our ab initio calculations, we show that the Cr-oxide spinels with magnetic A2+ cations (A2+ = Mn, Fe, Co, Ni) follow a similar trend as their chalcogenide counterparts with nonmagnetic A2+ ions, i.e., the transition pressure is proportionally related with the magnitude of the Cr-Cr magnetic exchange interactions. Therefore, we reach the conclusion that the Cr-Cr magnetic exchange interactions alone suffice to account for the high-pressure behavior of these systems. Our results clearly depict the close relationship between the structural and magnetic degrees of freedom in Cr-bearing spinels.

[1] I. Efthimiopoulos, I. Khatri, Z. T. Y. Liu, S. V. Khare, P. Sarin, V. Tsurkan, A. Loidl,
Physical Review B 97 (2018), 184435.

Sept. 28, 2018, 2:15 PM – Sept. 28, 2018, 2:30 PM

Presenters

Indiras Khatri

University of Augsburg, The University of Toledo, Univ of Toledo

Authors

Ilias Efthimiopoulos

Oakland University
Indiras Khatri

University of Augsburg, The University of Toledo, Univ of Toledo
Z. T. Y. T. Y. Liu

The University of Toledo
Sanjay V Khare

The University of Toledo
Pankaj Sarin

Oklahoma state university
Indiras Khatri

University of Augsburg, The University of Toledo, Univ of Toledo
Indiras Khatri

University of Augsburg, The University of Toledo, Univ of Toledo
Zhang Dongzhou

University of Hawaii at Monoa
Yuejian Wang

Oakland University