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Chirality, magnetism and magnetoelec...

Kamenetskii, Eugene.

Chirality, magnetism and magnetoelectricityseparate phenomena and joint effects in metamaterial structures /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Chirality, magnetism and magnetoelectricityedited by Eugene Kamenetskii.
其他題名:	separate phenomena and joint effects in metamaterial structures /
其他作者:	Kamenetskii, Eugene.
出版者:	Cham :Springer International Publishing :2021.
面頁冊數:	xx, 575 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
標題:	Metamaterials.
電子資源:	https://doi.org/10.1007/978-3-030-62844-4
ISBN:	9783030628444$q(electronic bk.)

Chirality, magnetism and magnetoelectricityseparate phenomena and joint effects in metamaterial structures /
Chirality, magnetism and magnetoelectricityseparate phenomena and joint effects in metamaterial structures /[electronic resource] :edited by Eugene Kamenetskii. - Cham :Springer International Publishing :2021. - xx, 575 p. :ill., digital ;24 cm. - Topics in applied physics,v.1380303-4216 ;. - Topics in applied physics ;v.123..

Chiral coupling to magnetodipolar radiation -- Surface plasmons for absolute chiral sensing -- Spin-polarized plasmonics: fresh view on magnetic nanoparticles -- Charility and Antiferromagnetism in Optical Metasurfaces -- Anomalous functions due to chiral interplay between light and nanostructures -- Spin wave nonreciprocity in ferromagnetic materials -- Microwave-Active Dynamics of Magnetic Skyrmions: Magnetic Resonances, Translational Motions, and Spin Motive Forces -- Chiral Optomagnonics with Polarized Light in Magnetic Insulators -- Realization of artificial chirality in micro-/nano-scale three-dimensional plasmonic structures -- Photo-induced nonlinear and non-equilibrium phenomena in magnets: Floquet engineering, application of topological light, and spin-current generation -- Stable propagation of surface-plasmon polaritons.

This book discusses theoretical and experimental advances in metamaterial structures, which are of fundamental importance to many applications in microwave and optical-wave physics and materials science. Metamaterial structures exhibit time-reversal and space-inversion symmetry breaking due to the effects of magnetism and chirality. The book addresses the characteristic properties of various symmetry breaking processes by studying field-matter interaction with use of conventional electromagnetic waves and novel types of engineered fields: twisted-photon fields, toroidal fields, and magnetoelectric fields. In a system with a combined effect of simultaneous breaking of space and time inversion symmetries, one observes the magnetochiral effect. Another similar phenomenon featuring space-time inversion symmetries is related to use of magnetoelectric materials. Cross-coupling of the electric and magnetic components in these material structures, leading to the appearance of new magnetic modes with an electric excitation channel - electromagnons and skyrmions - has resulted in a wealth of strong optical effects such as directional dichroism, magnetochiral dichroism, and rotatory power of the fields. This book contains multifaceted contributions from international leading experts and covers the essential aspects of symmetry-breaking effects, including theory, modeling and design, proven and potential applications in practical devices, fabrication, characterization and measurement. It is ideally suited as an introduction and basic reference work for researchers and graduate students entering this field.

ISBN: 9783030628444$q(electronic bk.)

Standard No.: 10.1007/978-3-030-62844-4doiSubjects--Topical Terms:

246129
Metamaterials.

LC Class. No.: TK7871.15.M48 / C457 2021

Dewey Class. No.: 620.118

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505 0 $a Chiral coupling to magnetodipolar radiation -- Surface plasmons for absolute chiral sensing -- Spin-polarized plasmonics: fresh view on magnetic nanoparticles -- Charility and Antiferromagnetism in Optical Metasurfaces -- Anomalous functions due to chiral interplay between light and nanostructures -- Spin wave nonreciprocity in ferromagnetic materials -- Microwave-Active Dynamics of Magnetic Skyrmions: Magnetic Resonances, Translational Motions, and Spin Motive Forces -- Chiral Optomagnonics with Polarized Light in Magnetic Insulators -- Realization of artificial chirality in micro-/nano-scale three-dimensional plasmonic structures -- Photo-induced nonlinear and non-equilibrium phenomena in magnets: Floquet engineering, application of topological light, and spin-current generation -- Stable propagation of surface-plasmon polaritons.
520 $a This book discusses theoretical and experimental advances in metamaterial structures, which are of fundamental importance to many applications in microwave and optical-wave physics and materials science. Metamaterial structures exhibit time-reversal and space-inversion symmetry breaking due to the effects of magnetism and chirality. The book addresses the characteristic properties of various symmetry breaking processes by studying field-matter interaction with use of conventional electromagnetic waves and novel types of engineered fields: twisted-photon fields, toroidal fields, and magnetoelectric fields. In a system with a combined effect of simultaneous breaking of space and time inversion symmetries, one observes the magnetochiral effect. Another similar phenomenon featuring space-time inversion symmetries is related to use of magnetoelectric materials. Cross-coupling of the electric and magnetic components in these material structures, leading to the appearance of new magnetic modes with an electric excitation channel - electromagnons and skyrmions - has resulted in a wealth of strong optical effects such as directional dichroism, magnetochiral dichroism, and rotatory power of the fields. This book contains multifaceted contributions from international leading experts and covers the essential aspects of symmetry-breaking effects, including theory, modeling and design, proven and potential applications in practical devices, fabrication, characterization and measurement. It is ideally suited as an introduction and basic reference work for researchers and graduate students entering this field.
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