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Enhancement of spin-wave nonreciprocity in magnonic crystals via synthetic antiferromagnetic coupling

机译：合成反铁磁耦合增强镁磁晶体自旋波不可逆性

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Spin-wave nonreciprocity arising from dipole-dipole interaction is insignificant for magnon wavelengths in the sub-100 nm range. Our micromagnetic simulations reveal that for the nanoscale magnonic crystals studied, such nonreciprocity can be greatly enhanced via synthetic antiferromagnetic coupling. The nonreciprocity is manifested as highly asymmetric magnon dispersion curves of the magnonic crystals. Furthermore, based on the study of the dependence of the nonreciprocity on an applied magnetic field, the antiparallel alignment of the magnetizations is shown to be responsible for the enhancement. Our findings would be useful for magnonic and spintronics applications.

机译：偶极子-偶极子相互作用引起的自旋波不可逆性对于低于100 rangenm范围的磁振子波长无关紧要。我们的微磁模拟表明，对于所研究的纳米级镁磁晶体，通过合成反铁磁耦合可以大大增强这种不可逆性。不可逆性表现为强磁晶体的高度不对称的马农色散曲线。此外，基于对不可逆性对所施加磁场的依赖性的研究，显示出磁化强度的反平行排列是造成磁场增强的原因。我们的发现对于磁电和自旋电子学应用将是有用的。

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期刊名称 Scientific Reports
作者
K. Di; S. X. Feng; S. N. Piramanayagam; V. L. Zhang; H. S. Lim; S. C. Ng; M. H. Kuok;
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年(卷),期 -1(5),-1
年度 -1
页码 10153
总页数 6
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1. Enhancement of spin-wave nonreciprocity in magnonic crystals via synthetic antiferromagnetic coupling [J] . K. Di, S. X. Feng, S. N. Piramanayagam, Scientific reports. . 2015,第期

机译：通过合成反铁磁耦合提高始线晶体中的旋转波非渗透性
2. Spin-wave nonreciprocity and magnonic band structure in a thin permalloy film induced by dynamical coupling with an array of Ni stripes [J] . M. Mruczkiewicz, P. Graczyk, P. Lupo, Physical review. B, Condensed Matter And Materals Physics . 2017,第10期

机译：镍合金阵列动态耦合引起的坡莫合金薄膜中的自旋波不可逆性和强子能带结构
3. Spin-wave nonreciprocity and magnonic band structure in a thin permalloy film induced by dynamical coupling with an array of Ni stripes [J] . M. Mruczkiewicz, P. Graczyk, P. Lupo, Physical Review. B, Condensed Matter . 2017,第9a10CD期

机译：通过动态耦合与Ni条纹阵列诱导的薄渗透合金膜中的旋转波非渗透和擒纵带结构
4. Tunable spin-wave coupling in lateral arrays of magnonic structures for magnonic logic applications [C] . Grachev A.A., Kostylev M.P., Sheshukova S.E., Saratov Meeting: Computations and Data Analysis: from Molecular Processes to Brain Functions . 2020

机译：延长延伸轨道结构中的可调旋转波耦合，用于橡胶逻辑应用
5. Properties and dynamics of spin waves in one and two dimensional magnonic crystals. [D] . Sietsema, Glade Robert. 2016

机译：一维和二维镁磁晶体中自旋波的性质和动力学。
6. Magnonic Band Engineering by Intrinsic and Extrinsic Mirror Symmetry Breaking in Antidot Spin-Wave Waveguides [O] . J. W. Kłos, D. Kumar, M. Krawczyk, -1

机译：Antidot自旋波波导中本征和非本征镜面对称性破坏的磁带工程
7. Spin-wave nonreciprocity based on interband magnonic transitions [O] . Di, Kai, Lim, Hock Siah, Zhang, Vanessa Li, 2013

机译：基于带间磁场跃迁的自旋波非互易性
8. Crystal structure dependence of antiferromagnetic coupling in Fe /Si multilayers [R] . Michel, R P, Chaiken, A, Wall, MA 1995

机译：Fe / si多层膜中反铁磁耦合的晶体结构依赖性

Enhancement of spin-wave nonreciprocity in magnonic crystals via synthetic antiferromagnetic coupling

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