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arxiv: 2404.04746 · v1 · pith:TLIBRUADnew · submitted 2024-04-06 · ❄️ cond-mat.mtrl-sci

Non-volatile spin transport in a single domain multiferroic

classification ❄️ cond-mat.mtrl-sci
keywords spinsingletransportdomainattentioncycloidfieldmultiferroic
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Antiferromagnets have attracted significant attention in the field of magnonics, as promising candidates for ultralow-energy carriers for information transfer for future computing. The role of crystalline orientation distribution on magnon transport has received very little attention. In multiferroics such as BiFeO$_3$ the coupling between antiferromagnetic and polar order imposes yet another boundary condition on spin transport. Thus, understanding the fundamentals of spin transport in such systems requires a single domain, a single crystal. We show that through Lanthanum(La) substitution, a single ferroelectric domain can be engineered with a stable, single-variant spin cycloid, controllable by an electric field. The spin transport in such a single domain displays a strong anisotropy, arising from the underlying spin cycloid lattice. Our work shows a pathway to understand the fundamental origins of spin transport in such a single domain multiferroic.

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