Low-temperature structure transition in hexagonal LuFeO3

Xiaoshan Xu; Wenbin Wang; Xiao Wang; Leyi Zhu; Jong-Woo Kim; Phillip Ryan; D.J. Keavney; T. Zac Ward; Jian Shen; X. M. Cheng

Low-temperature structure transition in hexagonal LuFeO3

ORAL

Abstract

The structural change of h-LuFeO$_3$ films at low temperature has been studied using x-ray diffraction and x-ray absorption experiments. The results are analyzed using the displacements of three phonon modes that are related to the P6$_3$/mmc to P6$_3$cm structural transition. The data indicate that the in-plane motion of the Fe and apex oxygen are responsible for the observed anomaly in both x-ray absorption and diffraction experiments. This subtle structural transition may be an origin of the low temperature magnetic phase transition at $T_R$=130 K.

March 5, 2014, 3:15 PM – March 5, 2014, 3:27 PM

Authors

Xiaoshan Xu

Oak Ridge National Laboratory,Bryn Mawr College,Fudan University
Wenbin Wang

University of Tennessee, Oak Ridge National Laboratory
Xiao Wang

Bryn Mawr College
Leyi Zhu

Argonne National Lab
Jong-Woo Kim

Argonne National Laboratory
Phillip Ryan

Advanced Photon Source, Argonne National Lab, Argonne National Laboratory
D.J. Keavney

Argonne National Laboratory, Argonne National Lab.
T. Zac Ward

Oak Ridge National Laboratory
Jian Shen

Fudan University
X. M. Cheng

Bryn Mawr College