Spin Waves: Theory and Applications

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Spin Waves: Theory and Applications covers topics foundational to understanding spin waves such as the physics of magnetism and electromagnetic waves in anisotropic media, as well as both classical and quantum mechanical treatments of spin wave excitations.

The authors discuss many applications including microwave delay lines, spin wave-optical devices, and microwave oscillations induced by spin transfer torques in multilayer structures. The material provides explanations and developments of concepts that assist students and researchers interested in beginning work on topics related to magnetic excitations. The book can be divided into three major parts. The first is comprised of Chapters 1-4 and is concerned with the physics of magnetism and electromagnetic waves in magnetic media. The second part, Chapters 5-8, focuses on magnetostatic modes and dipolar spin waves, their properties, how to excite them, and how they interact with light. Finally, Chapters 9 and 10 treat nonlinear phenomena and advanced applications of spin wave excitations.

Spin Waves: Theory and Applications provides an introduction to an active area of research and a handy reference for workers in the field. The material is useful for graduate students in physics, materials science, or electrical engineering as well as active researchers in fundamental and applied magnetism.

Author(s): Anil Prabhakar, Daniel D. Stancil (auth.)
Edition: 1
Publisher: Springer US
Year: 2009

Language: English
Pages: 348
Tags: Electrical Engineering; Signal, Image and Speech Processing; Electronics and Microelectronics, Instrumentation; Magnetism, Magnetic Materials; Microwaves, RF and Optical Engineering

Front Matter....Pages 1-12
Introduction to Magnetism....Pages 1-31
Quantum Theory of Spin Waves....Pages 33-66
Magnetic Susceptibilities....Pages 67-110
Electromagnetic Waves in Anisotropic-Dispersive Media....Pages 111-137
Magnetostatic Modes....Pages 139-168
Propagation Characteristics and Excitation of Dipolar Spin Waves....Pages 169-202
Variational Formulation for Magnetostatic Modes....Pages 203-222
Optical-Spin Wave Interactions....Pages 223-261
Nonlinear Interactions....Pages 263-308
Novel Applications....Pages 309-332
Back Matter....Pages 1-22