Ferromagnetic Resonance in Orientational Transition Conditions

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This book explores magnetic resonance and ferromagnetic resonance under a wide variety of conditions to study physical properties of magnetodielectric material. Magnetostatic waves and the phenomena of ferromagnetic resonance in magnetodielectric media impact the creation of highly efficient analog signal-processing devices in the microwave range.

List of contents

Introduction. 1. General properties of ferromagnetic resonance and orientational transitions (literature review). 2. Mathematical apparatus used in calculating ferromagnetic resonance. 3. Mathematical apparatus used when working with crystals of various symmetry. 4. Energy density of magnetic anisotropy. 5. Orientational transition in a magnetic medium. 6. Ferromagnetic resonance in plates with uniaxial and cubic anisotropy. 7. Ferromagnetic resonance in films with tips of axis of easy magnetization. 8. Ferromagnetic resonance in a composition environment consisting of anisotropic ferrite particles. 9. Precession of positions of equilibrium of magnetization in the conditions of orientational transitions. 10. Precession of the position of the equilibrium magnetization in an anisotropic medium. Bibliography. Index.

Summary

This book explores magnetic resonance and ferromagnetic resonance under a wide variety of conditions to study physical properties of magnetodielectric material. Magnetostatic waves and the phenomena of ferromagnetic resonance in magnetodielectric media impact the creation of highly efficient analog signal-processing devices in the microwave range.