1. Origin of magnetovolume effect in a cobaltite
- Author
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Miao, Ping, Tan, Zhijian, Lee, Sanghyun, Ishikawa, Yoshihisa, Torii, Shuki, Yonemura, Masao, Koda, Akihiro, Komatsu, Kazuki, Machida, Shinichi, Sano-Furukawa, Asami, Hattori, Takanori, Lin, Xiaohuan, Li, Kuo, Mochiku, Takashi, Kikuchi, Ryosuke, Kawashima, Chizuru, Takahashi, Hiroki, Huang, Qingzhen, Itoh, Shinichi, Kadono, Ryosuke, Wang, Yingxia, Pan, Feng, Yamauchi, Kunihiko, and Kamiyama, Takashi
- Subjects
Condensed Matter - Strongly Correlated Electrons ,Condensed Matter - Materials Science - Abstract
The layered perovskite PrBaCo2O5.5+x demonstrates a strong negative thermal expansion (NTE) which holds potential for being fabricated into composites with zero thermal expansion. The NTE was found to be intimately associated with the spontaneous magnetic ordering, known as magnetovolume effect (MVE). Here we report with compelling evidences that the continuous-like MVE in PrBaCo2O5.5+x is intrinsically of discontinuous character, originating from an magnetoelectric transition from an antiferromagnetic insulating large-volume (AFILV) phase to a ferromagnetic metallic small-volume (FMSV) phase. Furthermore, the magnetoelectric effect (ME) shows high sensitivity to multiple external stimuli such as temperature, carrier doping, hydrostatic pressure, magnetic field etc. In contrast to the well-known ME such as colossal magnetoresistance and multiferroic effect which involve symmetry breaking of crystal structure, the ME in the cobaltite is purely isostructural. Our discovery provides a new pathway to realizing the ME as well as the NTE, which may find applications in new techniques.
- Published
- 2020
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