Anomalous Electronic Anisotropy Triggered by Ferroelastic Coupling in Multiferroic Heterostructures | Zendy

Ju Changcheng | Zendy; Yang JanChi | Zendy; Luo Cheng | Zendy; Shafer Padraic | Zendy; Liu HengJui | Zendy; Huang YenLin | Zendy; Kuo HoHung | Zendy; Xue Fei | Zendy; Luo ChihWei | Zendy; He Qing | Zendy; Yu Pu | Zendy; Arenholz Elke | Zendy; Chen LongQing | Zendy; Zhu Jinsong | Zendy; Lu Xiaomei | Zendy; Chu YingHao | Zendy

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Anomalous Electronic Anisotropy Triggered by Ferroelastic Coupling in Multiferroic Heterostructures

Author(s) -

Ju Changcheng,

Yang JanChi,

Luo Cheng,

Shafer Padraic,

Liu HengJui,

Huang YenLin,

Kuo HoHung,

Xue Fei,

Luo ChihWei,

He Qing,

Yu Pu,

Arenholz Elke,

Chen LongQing,

Zhu Jinsong,

Lu Xiaomei,

Chu YingHao

Publication year - 2016

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201502743

Subject(s) - multiferroics , materials science , condensed matter physics , anisotropy , coupling (piping) , heterojunction , ferroelasticity , optoelectronics , ferroelectricity , dielectric , composite material , quantum mechanics , physics

The ferroelastic strain coupling in multiferroic heterostructures is explored aiming at novel physical effects and fascinating functionality. Ferroelastic domain walls in manganites induced by a stripe BiFeO 3 template can modulate the electronic transfer and sufficiently block the magnetic ordering, creating a vast anisotropy. The findings suggest the great importance of ferroelastic strain engineering in material modifications.

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