Issue 63, 2018
From the journal:

RSC Advances

Coupled magnetic–elastic and metal–insulator transition in epitaxially strained SrMnO3/BaMnO3 superlattices

Jin-Feng Wang, ORCID logo *a   Zheng Li,a   Zhao-Tong Zhuang,a   Yan-Ming Zhanga  and  Jun-Ting Zhangb  

* Corresponding authors

a School of Physical and Technology, National Demonstration Center for Experimental Physics Education, Henan Normal University, Henan Key Laboratory of Photovoltaic Materials, Xinxiang 453007, China
E-mail: jfwang@htu.edu.cn

b Department of Physics, China University of Mining and Technology, Xuzhou 221116, China

Abstract

The spin–phonon coupling and the effects of strain on the ground-state phases of artificial SrMnO3/BaMnO3 superlattices were systematically investigated using first-principles calculations. The results confirm that this system has antiferromagnetic order and an intrinsic ferroelectric polarisation with the P4mm space group. A tensile epitaxial strain can drive the ground state to another antiferromagnetic–ferroelectric phase and then to a ferromagnetic–ferroelectric phase with the Amm2 space group, accompanied by a change in the ferroelectric polarisation from an out-of-plane direction to an in-plane direction. In contrast, a compressive strain could induce a transition from the antiferromagnetic insulator phase to the ferromagnetic metal phase.

Graphical abstract: Coupled magnetic–elastic and metal–insulator transition in epitaxially strained SrMnO3/BaMnO3 superlattices

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Article information

DOI
https://doi.org/10.1039/C8RA05737K
Article type
Paper
Submitted
05 Jul 2018
Accepted
13 Oct 2018
First published
29 Oct 2018
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2018,8, 36407-36411

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Coupled magnetic–elastic and metal–insulator transition in epitaxially strained SrMnO3/BaMnO3 superlattices

J. Wang, Z. Li, Z. Zhuang, Y. Zhang and J. Zhang, RSC Adv., 2018, 8, 36407 DOI: 10.1039/C8RA05737K

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