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Antiferromagnetic textures in BiFeO3 controlled by strain and electric field.


ABSTRACT: Antiferromagnetic thin films are currently generating considerable excitement for low dissipation magnonics and spintronics. However, while tuneable antiferromagnetic textures form the backbone of functional devices, they are virtually unknown at the submicron scale. Here we image a wide variety of antiferromagnetic spin textures in multiferroic BiFeO3 thin films that can be tuned by strain and manipulated by electric fields through room-temperature magnetoelectric coupling. Using piezoresponse force microscopy and scanning NV magnetometry in self-organized ferroelectric patterns of BiFeO3, we reveal how strain stabilizes different types of non-collinear antiferromagnetic states (bulk-like and exotic spin cycloids) as well as collinear antiferromagnetic textures. Beyond these local-scale observations, resonant elastic X-ray scattering confirms the existence of both types of spin cycloids. Finally, we show that electric-field control of the ferroelectric landscape induces transitions either between collinear and non-collinear states or between different cycloids, offering perspectives for the design of reconfigurable antiferromagnetic spin textures on demand.

SUBMITTER: Haykal A 

PROVIDER: S-EPMC7136242 | biostudies-literature | 2020 Apr

REPOSITORIES: biostudies-literature

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Antiferromagnetic textures in BiFeO<sub>3</sub> controlled by strain and electric field.

Haykal A A   Fischer J J   Akhtar W W   Chauleau J-Y JY   Sando D D   Finco A A   Godel F F   Birkhölzer Y A YA   Carrétéro C C   Jaouen N N   Bibes M M   Viret M M   Fusil S S   Jacques V V   Garcia V V  

Nature communications 20200406 1


Antiferromagnetic thin films are currently generating considerable excitement for low dissipation magnonics and spintronics. However, while tuneable antiferromagnetic textures form the backbone of functional devices, they are virtually unknown at the submicron scale. Here we image a wide variety of antiferromagnetic spin textures in multiferroic BiFeO<sub>3</sub> thin films that can be tuned by strain and manipulated by electric fields through room-temperature magnetoelectric coupling. Using pie  ...[more]

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