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Magnetic Hysteresis in Novel Magnetic Materials

  • Book
  • © 1997

Overview

Editors:
  1. George C. Hadjipanayis

    1. Department of Physics and Astronomy, University of Delaware, Newark, USA

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Part of the book series: NATO Science Series E: (NSSE, volume 338)

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Table of contents (89 chapters)

  1. Front Matter

    Pages i-xiv
    Download chapter PDF

  2. Theory

    1. Coherent and Incoherent Magnetization Processes in Non-Interacting Particles

      • Amikam Aharoni
      Pages 1-20

    2. Interaction effects in Fine Particle Systems

      • R. W. Chantrell
      Pages 21-35

    3. Monte Carlo Simulations of Small Interacting Magnetic Particles

      • K. N. Trohidou, J. A. Blackman, D. Kechrakos
      Pages 37-44

    4. A Monte Carlo Simulation of the Hysteresis Behavior of Small Magnetic Particles

      • X. D. Zianni, K. N. Trohidou
      Pages 45-48

    5. Micromagnetics of Thin Films and Multilayers

      • T. Schrefl
      Pages 49-68

    6. Micromagnetism of Small Structures

      • S. T. Chui
      Pages 69-78

    7. Magnetic Hysteresis in Bilayer

      • H. S. Darendelioglu
      Pages 79-84

    8. Micromagnetism and the Microstructure of Modern Magnetic Materials

      • H. Kronmüller
      Pages 85-108

    9. Stochastic Model for Domain Wall Dynamics and Ferromagnetic Hysteresis

      • C. Beatrice, G. F. Durin, A. Magni, G. Bertotti
      Pages 109-113

    10. Influence of Defects Shape and Period on Domain Wall Coercive Field

      • K. L. Metlov, I. Tomáš
      Pages 115-119

    11. Avalanches Size Distribution in Model Hard Magnetic Materials Having Different Textures

      • O. A. Chubykalo, J. Gonzalez, J. M. Gonzalez
      Pages 121-124

    12. Domain Wall Dynamics and Preisach Modeling

      • G. Bertotti
      Pages 125-146

    13. The Effect of Thermally Induced Relaxation on the Remanent Magnetization in a Moving Preisach Model

      • R. M. Roshko, P. D. Mitchler, E. Dan Dahlberg
      Pages 147-157

    14. A Vectorial Preisach-Type Model for Magnetic Hysteresis for Interacting Stoner-Wohlfarth Particles

      • C. Michelakis, D. Samaras, A. Aravidis, G. Litsardakis
      Pages 159-163

    15. An Experimental System of the Classical Preisach Model of Magnetic Hysteresis

      • M. Pardavi-Horvath
      Pages 165-171

    16. Analysis of the Identification Methodologies in Preisach Modeling

      • Alexandru Stancu
      Pages 173-177

    17. First Principles Determination of Hyperfine Fields in Pt/Fe (111) Multilayers

      • G. Lu, R. Wu, L. Chen, N. Kioussis
      Pages 179-185

    18. Critical Behavior of the Thermal Conductivity near a Magnetic Phase Transition

      • A. Rassili, M. Ausloos
      Pages 187-193

  3. Characterization Techniques

    1. Imaging Magnetic Structures in the Transmission Electron Microscope

      • J. N. Chapman, K. J. Kirk
      Pages 195-206
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Keywords

About this book

A detailed presentation of the physics of the various hysteresis models that are currently used to explain the magnetization reversal process, including coherent and incoherent magnetization processes, micromagnetism and its application in thin films, multilayers, nanowires, particles and bulk magnets, domain wall pinning and domain wall dynamics, and Preisach modelling. Some of the faulty concepts and interpretations that still exist in the literature are rectified. Magnetic imaging techniques are reviewed, including TEM, SEM, magnetic force microscopy, and optical microscopy. Temperature, field and angular dependence of coercivity, magnetic interactions and magnetic phenomena are reviewed and their effect on magnetic hysteresis is discussed. The magnetic properties of novel materials are discussed, including nanoparticles, nanocrystalline granular solids, particulate media, thin films, and bulk magnets. Finally, present and future applications of novel materials are presented, including magnetic and magneto-optic recording media, magneto-electronics, sensors, magnetic circuit design, and novel structures created from rigid, high-energy permanent magnets.

Editors and Affiliations

  • Department of Physics and Astronomy, University of Delaware, Newark, USA

    George C. Hadjipanayis

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