Title: Mechanically tunable exchange coupling of Co/CoO bilayers on flexible muscovite substrates
Authors: Thai Duy Ha
Yen, Min
Lai, Yu-Hong
Kuo, Chang-Yang
Chen, Chien-Te
Tanaka, Arata
Tsai, Li-Zai
Zhao, Yi-Feng
Duan, Chun-Gang
Lee, Shang-Fan
Chang, Chun-Fu
Juang, Jenh-Yih
Chu, Ying-Hao
材料科學與工程學系
電機學院
Department of Materials Science and Engineering
College of Electrical and Computer Engineering
Issue Date: 7-Feb-2020
Abstract: The employment of flexible muscovite substrates has given us the feasibility of applying strain to heterostructures dynamically by mechanical bending. In this study, this novel approach is utilized to investigate strain effects on the exchange coupling in ferromagnetic Co and anti-ferromagnetic CoO (Co/CoO) bilayers. Two different Co/CoO bilayer heterostructures were grown on muscovite substrates by oxide molecular beam epitaxy, with the CoO layer being purely (111)- and (100)-oriented. The strain-dependent exchange coupling effect can only be observed on Co/CoO(100)/mica but not on Co/CoO(111)/mica. The origin of this phenomenon is attributed to the anisotropic spin re-orientation induced by mechanical bending. The strain-dependent magnetic anisotropy of the bilayers determined by anisotropic magnetoresistance measurements confirms this conjecture. This study elucidates the fundamental understanding of how magnetic exchange coupling can be tuned by externally applied strain via mechanical bending and, hence, provides a novel approach for implementing flexible spintronic devices.
URI: http://dx.doi.org/10.1039/c9nr08810e
http://hdl.handle.net/11536/153945
ISSN: 2040-3364
DOI: 10.1039/c9nr08810e
Journal: NANOSCALE
Volume: 12
Issue: 5
Begin Page: 3284
End Page: 3291
Appears in Collections:Articles