Cloaking the magnons

We propose two approaches to cloak the spin waves (magnons) by investigating magnetization dynamics. One approach is based on a spatially inhomogeneous anisotropic magnetic moment tensor. The other mechanism is using a spatially inhomogeneous anisotropic gyromagnetic factor tensor and an inhomogeneo...

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Veröffentlicht in:	Physical review. B 2016-03, Vol.93 (10), Article 104418
Hauptverfasser:	Elyasi, Mehrdad, Bhatia, Charanjit S., Qiu, Cheng-Wei, Yang, Hyunsoo
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Condensed matter Magnetic lenses Magnetization Magnons Mathematical analysis Spin waves Tensors
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creator	Elyasi, Mehrdad Bhatia, Charanjit S. Qiu, Cheng-Wei Yang, Hyunsoo
description	We propose two approaches to cloak the spin waves (magnons) by investigating magnetization dynamics. One approach is based on a spatially inhomogeneous anisotropic magnetic moment tensor. The other mechanism is using a spatially inhomogeneous anisotropic gyromagnetic factor tensor and an inhomogeneous external magnetic field. For both approaches, the damping tensor is also inhomogeneous and anisotropic. The magnetic characteristic functions of the magnetic materials have been theoretically derived for both mechanisms. A nonmagnetic core, which prevents magnons from entering and consequently distorts the spin-wave propagation, can be cloaked by a structured magnetic shell to redirect the spin wave around the core using the above design mechanisms. We discuss the feasibility of the proposed mechanisms in an ensemble of quantum dot molecules and magnetic semiconductors. The proposed approaches shed light on transformation magnonics, and can be utilized for future spin-wave lenses, concentrators, low backscattering waveguides, and ultimately quantum computing.
doi_str_mv	10.1103/PhysRevB.93.104418
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The magnetic characteristic functions of the magnetic materials have been theoretically derived for both mechanisms. A nonmagnetic core, which prevents magnons from entering and consequently distorts the spin-wave propagation, can be cloaked by a structured magnetic shell to redirect the spin wave around the core using the above design mechanisms. We discuss the feasibility of the proposed mechanisms in an ensemble of quantum dot molecules and magnetic semiconductors. The proposed approaches shed light on transformation magnonics, and can be utilized for future spin-wave lenses, concentrators, low backscattering waveguides, and ultimately quantum computing.</abstract><doi>10.1103/PhysRevB.93.104418</doi></addata></record>
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subjects	Anisotropy Condensed matter Magnetic lenses Magnetization Magnons Mathematical analysis Spin waves Tensors
title	Cloaking the magnons
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