
Electrons in solids behave like microscopic bar magnets, and in certain solids these align to produce macroscopic magnetizations. This book deals with the dynamics of this magnetization field. It addresses questions of microscopic mechanism only to the extent that residual interactions of the magnetic moments with other degrees of freedom of the host solid affect the dynamics, particularly the dissipative aspects. Several of these damping mechanisms are evaluated here for their effect on the equations of the magnetization dynamics. This dynamics is intrinsically nonlinear. This is important in the applications, particularly magnetic recording, which involves very large motion of the magnetization, well beyond the validity of linearized (small motion) approximations or limited extensions thereof. Therefore nonlinear solution methods are emphasized, but with only minimal use of numerical simulation. The book should be useful to practitioners of magnetic recording, and to physicists studying magnetic phenomena.
This text investigates the complex dynamics of magnetization fields in solids, specifically focusing on the dissipative processes and nonlinear mechanisms that govern magnetic behavior. Author Harry Suhl, a prominent physicist, utilizes his extensive background in condensed matter physics to analyze how residual interactions between magnetic moments and the host solid influence magnetization dynamics. The work provides a theoretical framework for understanding these interactions, moving beyond standard linearized approximations to address the large-scale motions critical to modern magnetic applications.
What You Will Find
Scope Limits
Experts recognize this work as a specialized, high-level resource for physicists and engineers engaged in magnetic recording research. Readers frequently note the mathematical rigor and the focus on analytical solutions over computational modeling, making it a foundational text for those studying nonlinear magnetic phenomena.
Page Count:
208
Publication Date:
2007-01-01
Publisher:
OUP Oxford
ISBN-10:
0191523674
ISBN-13:
9780191523670
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