Description

Book Synopsis

Since the publication of the first edition of Spin-Wave Confinement, the magnetic community’s interest in dynamic excitations in magnetic systems of reduced dimensions has been increasing. Although the concept of spin waves and their quanta (magnons) as propagating excitation of magnetic media was introduced more than 80 years ago, this field has been repeatedly bringing us fascinating new physical phenomena. The successful development of magnonics as an emerging subfield of spintronics, which considers confined spin waves as a basis for smaller, faster, more robust, and more power-efficient electronic devices, inevitably demands reduction in the sizes and dimensions of the magnetic systems being studied.

The unique features of magnons, including the possibility of carrying spin information over relatively long distances, the possibility of achieving submicrometer wavelength at microwave frequencies, and controllability by electronic signal via magnetic fields, make magnonic devices distinctively suited for implementation of novel integrated electronic schemes characterized by high speed, low power consumption, and extended functionalities.

Edited by S. O. Demokritov, a prominent magnonics researcher who has successfully collected the results of cutting-edge research by almost all main players in the field, this book is for everyone involved in nanotechnology, spintronics, magnonics, and nanomagnetism.



Table of Contents

Graded magnonic index and spin-wave Fano resonances. Coupled spin waves in magnonic waveguides. Tuning of the spin-wave bands in nanostructures. Magnetization dynamics of Reconfigurable 2D magnonic crystals. Spin-wave optics in patterned garnet. Spin waves in circular and linear chains. Magnonic grating coupler effect. Spin waves on spin structures: topology, localization, and nonreciprocity. Steering of confined spin waves by local magnetic fields and domain walls. Current-induced spin-wave Doppler shift. Control of propagating spin waves by spin currents. Propagating spin waves in nano-contact spin torque oscillators. Parametric excitation and amplification of propagating spin waves by voltage-controlled magnetic anisotropy.

Spin Wave Confinement: Propagating Waves, Second

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    A Hardback by Sergej O. Demokritov

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      View other formats and editions of Spin Wave Confinement: Propagating Waves, Second by Sergej O. Demokritov

      Publisher: Pan Stanford Publishing Pte Ltd
      Publication Date: 07/08/2017
      ISBN13: 9789814774352, 978-9814774352
      ISBN10: 9814774359

      Description

      Book Synopsis

      Since the publication of the first edition of Spin-Wave Confinement, the magnetic community’s interest in dynamic excitations in magnetic systems of reduced dimensions has been increasing. Although the concept of spin waves and their quanta (magnons) as propagating excitation of magnetic media was introduced more than 80 years ago, this field has been repeatedly bringing us fascinating new physical phenomena. The successful development of magnonics as an emerging subfield of spintronics, which considers confined spin waves as a basis for smaller, faster, more robust, and more power-efficient electronic devices, inevitably demands reduction in the sizes and dimensions of the magnetic systems being studied.

      The unique features of magnons, including the possibility of carrying spin information over relatively long distances, the possibility of achieving submicrometer wavelength at microwave frequencies, and controllability by electronic signal via magnetic fields, make magnonic devices distinctively suited for implementation of novel integrated electronic schemes characterized by high speed, low power consumption, and extended functionalities.

      Edited by S. O. Demokritov, a prominent magnonics researcher who has successfully collected the results of cutting-edge research by almost all main players in the field, this book is for everyone involved in nanotechnology, spintronics, magnonics, and nanomagnetism.



      Table of Contents

      Graded magnonic index and spin-wave Fano resonances. Coupled spin waves in magnonic waveguides. Tuning of the spin-wave bands in nanostructures. Magnetization dynamics of Reconfigurable 2D magnonic crystals. Spin-wave optics in patterned garnet. Spin waves in circular and linear chains. Magnonic grating coupler effect. Spin waves on spin structures: topology, localization, and nonreciprocity. Steering of confined spin waves by local magnetic fields and domain walls. Current-induced spin-wave Doppler shift. Control of propagating spin waves by spin currents. Propagating spin waves in nano-contact spin torque oscillators. Parametric excitation and amplification of propagating spin waves by voltage-controlled magnetic anisotropy.

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