| 研究課題/領域番号 |
21K04816
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| 研究種目 |
基盤研究(C)
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| 配分区分 | 基金 |
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| 応募区分 | 一般 |
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| 審査区分 |
小区分28020:ナノ構造物理関連
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| 研究機関 | 東北大学 |
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研究代表者 |
LLANDRO Justin 東北大学, 電気通信研究所, 助教 (90784140)
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| 研究期間 (年度) |
2021-04-01 – 2023-03-31
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| 研究課題ステータス |
中途終了 (2022年度)
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| 配分額 *注記 |
4,160千円 (直接経費: 3,200千円、間接経費: 960千円)
2023年度: 910千円 (直接経費: 700千円、間接経費: 210千円)
2022年度: 1,690千円 (直接経費: 1,300千円、間接経費: 390千円)
2021年度: 1,560千円 (直接経費: 1,200千円、間接経費: 360千円)
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| キーワード | gyroids / spin waves / spin transport / topology / chiral / self-assembly / PXCT / 3D nanomagnetism / gyroid / spin wave |
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| 研究開始時の研究の概要 |
Networks of nanostructures can acquire new, emergent properties which arise from the topology of the network. This project aims to study magnetic gyroids, 3D networks of nanoscale helices, which combine topology with magnetism to open new possibilities for spintronics and novel computing paradigms.
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| 研究実績の概要 |
This study aims to investigate the influence of morphology on magnetism and spin transport in 3D nanoscale networks. We clarified that Ni gyroids, composed of chiral 3-connected nodes, behave as frustrated networks of non-collinear, non-Ising macrospins with highly orientation-dependent magnetoresistance. We successfully demonstrated that Ni gyroids exhibit both strongly anisotropic spin-wave transport and potential localisation of spin waves. Using X-ray nanotomography, we succeeded in imaging in 3D samples fabricated by self-assembly of both gyroids and achiral, 4-connected single-diamond networks, quantifying the distortion of the network during self-assembly and for the first time revealing extended liquid-crystal-like topological defects. These results are expected to lead to new ways to design and control collective and topological effects via morphology control in magnetic networks for spintronics and unconventional computing applications.
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