Recent Advances in Magnetic Insulators From Spintronics to Microwave Applications 1st Edition by Mingzhong Wu , Axel Hoffmann ISBN 978-0124080713
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ISBN 13: 978-0124080713
Author: Mingzhong Wu , Axel Hoffmann
This volume of Solid State Physics provides a broad review on recent advances in the field of magnetic insulators, ranging from new spin effects to thin film growth and high-frequency applications. It covers both theoretical and experimental progress. The topics include the use of magnetic insulators to produce and transfer spin currents, the excitation of spin waves in magnetic insulators by spin transfer torque, interplay between the spin and heat transports in magnetic insulator/normal metal heterostructures, nonlinear spin waves in thin films, development of high-quality nanometer thick films, and applications of magnetic insulators in rf, microwave, and terahertz devices, among others. The volume not only presents introductions and tutorials for those just entering the field, but also provides comprehensive yet timely summaries to specialists in the field.
Solid-state physics is the branch of physics primarily devoted to the study of matter in its solid phase, especially at the atomic level. This prestigious series presents timely and state-of-the-art reviews pertaining to all aspects of solid-state physics.
– Contributions from leading authorities
– Informs and updates on all the latest developments in the field
Table of contents:
1. Spin Currents and Spin-Wave Transport in Magnetic Insulators
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Uchida et al. – “Spin-Wave Spin Current in Magnetic Insulators”: Seminal work showing the generation and transport of spin currents via spin waves (magnons) in magnetic insulators like YIG (yttrium iron garnet).
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Weiler et al. – “Spin Pumping and Spin Currents in Magnetic Insulators”: Discusses mechanisms of spin pumping and spin current detection across magnetic insulator interfaces.
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Xiao et al. – “Spin Wave Excitation in Magnetic Insulator Thin Films by Spin-Transfer Torque”: Theoretical insight into how spin-transfer torque can excite spin waves in magnetic insulators.
2. Interfacial Phenomena and Spin Transport
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Huang et al. – “Charge, Spin, and Heat Transport in the Proximity of Metal/Ferromagnet Interface”: Explores spin and thermal transport effects near interfaces, relevant for spin Seebeck and proximity-induced phenomena.
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Sun & Wu – “Yttrium Iron Garnet Nano Films: Epitaxial Growth, Spin Pumping Efficiency…”: Focuses on material quality, damping, and interface effects in nanoscale YIG films, critical for device integration.
3. Advanced Spin Current Control Mechanisms
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Dzyapko et al. – “Control of Pure Spin Current by Magnon Tunneling and Three-Magnon Splitting”: Experimental exploration of nonlinear magnon processes, such as magnon tunneling and splitting, in YIG.
4. Nonlinear Spin-Wave Physics and Devices
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Kalinikos & Ustinov – “Nonlinear Spin Waves in Magnetic Films and Structures”: A foundational work on the theory and potential device applications of nonlinear spin wave dynamics.
5. Ferrites in RF/Microwave and THz Applications
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Hong & Lee – “Ferrites for RF Devices”: Overview of ferrite materials used in RF devices like circulators and isolators.
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Chen & Harris – “Impact of Structural and Magnetic Anisotropies in Microwave Ferrites”: Studies the impact of anisotropies, which are critical for designing tunable microwave components.
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Srinivasan et al. – “Dielectric Resonance in Ferrites for Sub-THz Signal Processing Devices”: Discusses dielectric and magnetic resonance effects in ferrites at very high frequencies.
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Tags: Mingzhong Wu, Axel Hoffmann, Recent Advances, Magnetic Insulators, Spintronics