Controlling vortex chirality and polarity by geometry in magnetic nanodots

Sebastia Agramunt-Puig; Nuria Del-Valle; Carles Navau; Alvaro Sanchez

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Controlling vortex chirality and polarity by geometry in magnetic nanodots

机译：通过磁性纳米点中的几何形状控制涡旋手性和极性

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The independent control of both vortex chirality and polarity is a significant challenge in magnetic devices based on nano-sized magnetic vortex structures. By micromagnetic simulations here, we show that in soft ferromagnetic nanodots with an adequate modulated thickness, the desired combination of chirality and polarity can be achieved just by changing the direction of the in-plane applied magnetic field. Despite the complex behavior, the vortex chirality and polarity control can be summarized in two simple rules that can thus become a useful tool for designing magnetic devices.

机译：在基于纳米级磁涡旋结构的磁性设备中，涡旋手性和极性的独立控制是一项重大挑战。通过此处的微磁模拟，我们表明，在具有适当调制厚度的软铁磁纳米点中，仅通过更改面内施加磁场的方向就可以实现所需的手性和极性组合。尽管行为复杂，但可以用两个简单的规则来总结旋涡手性和极性控制，从而可以成为设计磁性器件的有用工具。

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来源
《Applied Physics Letters》 |2014年第1期|012407.1-012407.4|共4页
作者
Sebastia Agramunt-Puig; Nuria Del-Valle; Carles Navau; Alvaro Sanchez;
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作者单位

Departament de Fisica, Gnip d' Electromagnetisme, Universitat Autbnoma de Barcelona, 08193 Bcllaterra, Barcelona, Catalonia, Spain;

Departament de Fisica, Gnip d' Electromagnetisme, Universitat Autbnoma de Barcelona, 08193 Bcllaterra, Barcelona, Catalonia, Spain;

Departament de Fisica, Gnip d' Electromagnetisme, Universitat Autbnoma de Barcelona, 08193 Bcllaterra, Barcelona, Catalonia, Spain;

Departament de Fisica, Gnip d' Electromagnetisme, Universitat Autbnoma de Barcelona, 08193 Bcllaterra, Barcelona, Catalonia, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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入库时间 2022-08-18 03:15:36

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1. Controlling vortex chirality and polarity by geometry in magnetic nanodots [J] . Agramunt-Puig Sebastia, Del-Valle Nuria, Navau Carles, Applied Physics Letters . 2014,第1期

机译：通过磁性纳米点中的几何形状控制涡旋手性和极性
2. Independent Control of the Chirality and Polarity for the Magnetic Vortex in Symmetric Nanodot Pairs [J] . Li Junqin, Wang Yong, Zhao Zilong, IEEE Transactions on Magnetics . 2020,第9期

机译：对称纳米型对中磁涡体的手性和极性的独立控制
3. Independent control of the vortex chirality and polarity in a pair of magnetic nanodots [J] . Li Junqin, Wang Yong, Cao Jiefeng, Journal of magnetism and magnetic materials . 2017,第auga期

机译：一对磁性纳米点的旋涡手性和极性的独立控制
4. Indirect reversal of vortex core polarity in magnetically dynamic coupled disks [C] . Fior G., Novais E.R., Sinnecker J., 2015 IEEE Magnetics Conference . 2015

机译：磁动态耦合盘中涡流磁芯极性的间接反转
5. Electric current driven polarity changes in magnetic nanodots. [D] . Rao, Madhav R. 2007

机译：电流驱动的极性会改变磁性纳米点。
6. Deterministic control of magnetic vortex wall chirality by electric field [O] . R. P. Beardsley, S. Bowe, D. E. Parkes, -1

机译：电场对磁涡旋壁手性的确定性控制
7. Controlling vortex chirality and polarity by geometry in magnetic nanodots [O] . Agramunt Puig Sebastià 100

机译：通过磁性纳米点中的几何形状控制涡旋手性和极性

Controlling vortex chirality and polarity by geometry in magnetic nanodots

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