Non-volatile magnon transport in a single domain multiferroic
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Published:2024-07-16
Issue:1
Volume:15
Page:
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ISSN:2041-1723
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Container-title:Nature Communications
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language:en
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Short-container-title:Nat Commun
Author:
Husain SajidORCID, Harris IsaacORCID, Meisenheimer PeterORCID, Mantri SukritiORCID, Li XinyanORCID, Ramesh Maya, Behera Piush, Taghinejad Hossein, Kim Jaegyu, Kavle PravinORCID, Zhou ShiyuORCID, Kim Tae Yeon, Zhang HongruiORCID, Stevenson PaulORCID, Analytis James G.ORCID, Schlom DarrellORCID, Salahuddin Sayeef, Íñiguez-González JorgeORCID, Xu BinORCID, Martin Lane W.ORCID, Caretta LucasORCID, Han YimoORCID, Bellaiche LaurentORCID, Yao ZhiORCID, Ramesh RamamoorthyORCID
Abstract
AbstractAntiferromagnets 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 BiFeO3 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 understanding the fundamental origins of magnon transport in such a single domain multiferroic.
Publisher
Springer Science and Business Media LLC
Reference40 articles.
1. Landau, L. D. L. D. & Lifshitz, E. M. E. M.Electrodynamics of continuous media, by L. D. Landau and E. M. Lifshitz. Translated from the Russian by J. B. Sykes and J. S. Bell. Their Course of theoretical physics, v. 8 (Pergamon Press, Oxford, 1960). 2. Folen, V. J., Rado, G. T. & Stalder, E. W. Anisotropy of the magnetoelectric effect in Cr2O3. Phys. Rev. Lett. 6, 607–608 (1961). 3. Janesky, J. Freescale Semiconductor: Application note AN3525 Rev. 0, 11/2007 Impact of External Magnetic Fields on MRAM Products. (2007). 4. Chiba, D., Yamanouchi, M., Matsukura, F. & Ohno, H. Electrical manipulation of magnetization reversal in a ferromagnetic semiconductor. Science 301, 943–945 (2003). 5. Ohno, H. et al. Electric-field control of ferromagnetism. Nature 408, 944–946 (2000).
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