Temperature- and magnetic-field-induced magnetization reversal in perovskite YFe0.5Cr0.5O3

Mao, Jinhua; Sui, Yu; Zhang, Xingquan; Su, Yantao; Wang, Xianjie; Liu, Zhiguo; Wang, Yi; Zhu, Ruibin; Wang, Yang; Liu, Wanfa; Tang, Jinke

doi:10.1063/1.3590714

FACW_PHAS_2011_10773118_Mao_Sui_Zhang_Su_Wang_Liu_Wang_Zhu_Wang_Liu_Tang.pdf (812.72 kB)

Temperature- and magnetic-field-induced magnetization reversal in perovskite YFe0.5Cr0.5O3

journal contribution

posted on 2021-11-15, 21:34 authored by Jinhua Mao, Yu Sui, Xingquan Zhang, Yantao Su, Xianjie Wang, Zhiguo Liu, Yi Wang, Ruibin Zhu, Yang Wang, Wanfa Liu, Jinke Tang

Perovskite YFe0.5Cr0.5O3 exhibits magnetization reversal at low applied fields due to the competition between the single ion magnetic anisotropy and the antisymmetric Dzyaloshinsky–Moriya interaction. Below a compensation temperature Tcomp, a tunable bipolar switching of magnetization is demonstrated by changing the magnitude of the field while keeping it in the same direction. The present compound also displays both normal and inverse magnetocaloric effects above and below 260 K, respectively. These phenomena coexisting in a single magnetic system can be tuned in a predictable manner and have potential applications in electromagnetic devices.