Description

Over the last few decades, magnetism has seen an enormous expansion into a variety of different areas of research, notably the magnetism of several classes of novel materials that share with truly ferromagnetic materials only the presence of magnetic moments.

Volume 22 of the Handbook of Magnetic Materials, like the preceding volumes, has a dual purpose. With contributions from leading authorities in the field, it includes a variety of topics which are intended as self-contained introductions to a given area in the field of magnetism without requiring recourse to the published literature. It is also intended as a reference for scientists active in magnetism research, providing readers with novel trends and achievements in magnetism. Volume 22 comprises topical review articles covering perovskite manganites and their modifications, the magnetocaloric effect in intermetallic compounds and alloys, the scaling potential of particulate media in magnetic tape recording and layered iron superconductor systems. In each of these articles an extensive description is given in graphical as well as in tabular form, much emphasis being placed on the discussion of the experimental material within the framework of physics, chemistry and material science.

Key Features

  • Composed of topical review articles written by leading authorities
  • Introduces given topics in the field of magnetism
  • Provides the reader with novel trends and achievements in magnetism

Readership

Physicists, chemists and materials scientists, scientists active in magnetism research

Table of Contents

  • Preface to Volume 22
    Contents of volumes 1—21
    Contributors
    Chapter One: Magnetic Properties of Perovskite Manganites and Their Modifications
    Abstract
    • 1 Introduction
    • 2 Magnetocaloric Effect
    • 3 Pressure Effects in Perovskite Manganites
    • 4 Nanoparticles of Perovskite Manganites
    • Acknowledgments
  • Chapter Two: Magnetocaloric Effect in Intermetallic Compounds and Alloys
    Abstract
    • 1 Introduction
    • 2 Theoretical Aspects
    • 3 Measurement/Estimation of MCE
    • 4 Magnetocaloric Alloys and Intermetallic Compounds
    • 5 Magnetocaloric Materials with Technological Promise
    • 6 Future Outlook
    • Acknowledgments
  • Chapter Three: Future Scaling Potential of Particulate Media in Magnetic Tape Recording
    Abstract
    • 1 Introduction
    • 2 Media Considerations
    • 3 29.5-Gbit/in2 Areal Recording Demonstration
    • 4 Continued Future Scaling Potential of Magnetic Tape Technology
    • 5 Summary and Conclusions
    • Acknowledgments
  • Chapter Four: Magnetism and Structure in Layered Iron Superconductor Systems
    Abstract
    • 1 Introduction
    • 2 Planes of Edge-Sharing FeX4 Tetrahedra and Structural Families
    • 3 Magnetism and Superconductivity
    • 4 Relationships Between Crystal Structure and Superconductivity
    • 5 Relationships Between Crystal Structure and Magnetism
    • 6 Overview of Crystallographic Details and Magnetism in Individual Structure Types
    • 7 Concluding Remarks and Outlook
    • Acknowledgments
  • Author Index
    Subject Index
    Materials Index

Details

No. of pages:
532
Language:
English
Copyright:
© 2014
Published:
Imprint:
North Holland
eBook ISBN:
9780444632937
Print ISBN:
9780444632913

About the editor

K.H.J. Buschow

Professor Kurt Heinz Jürgen Buschow is a member of the Experimental Physics Department of the University of Amsterdam, where he teaches Magnetism and Magnetic Materials. He studied Physical Chemistry at the Free University of Amsterdam, starting in 1954.
After having received his M.Sc. degree in 1960 he prepared his thesis work dealing with “Ion-pair Formation with Polyacene Mono and Dinegative Ions”. He received his Ph.D. degree at the Free University in 1963.
In 1964 he held a research position at the Philips Research Laboratories in Eindhoven. He was appointed Senior Scientist in 1976 and Chief Scientist in 1988. His research activities comprised fundamental as well as applied aspects. During this period he stayed for one year (1977) as a guest scientist at the Bell Laboratories, Murray Hill, N.Y. In March 1994 he left the Philips Research Laboratories, taking a position at the Van der Waals-Zeeman Institute, University of Amsterdam and having simultaneously a part-time professorship at the University of Leiden.
His teaching activities are in the field of Metal Physics and Magnetic Materials. He has published more than 1100 papers in international scientific journals and is author of several review papers and handbook chapters on magnetic materials, metal hydrides and amorphous alloys. He is Editor-in-Chief of the Journal of Alloys and Compounds, Advisory Editor of the Journal of Magnetism and Magnetic Materials and is also Editor of the Series Handbook Magnetic Materials. Recently he became one of the Editors-in-Chief of the Encyclopedia of Materials: Science and Technology.

Affiliations and Expertise

Van Der Waals-Zeeman Institute, University of Amsterdam, The Netherlands

Reviews

Over the last few decades, magnetism has seen an enormous expansion into a variety of different areas of research, notably the magnetism of several classes of novel materials that share with truly ferromagnetic materials only the presence of magnetic moments.

Volume 22 of the Handbook of Magnetic Materials, like the preceding volumes, has a dual purpose. With contributions from leading authorities in the field, it includes a variety of topics which are intended as self-contained introductions to a given area in the field of magnetism without requiring recourse to the published literature. It is also intended as a reference for scientists active in magnetism research, providing readers with novel trends and achievements in magnetism. Volume 22 comprises topical review articles covering perovskite manganites and their modifications, the magnetocaloric effect in intermetallic compounds and alloys, the scaling potential of particulate media in magnetic tape recording and layered iron superconductor systems. In each of these articles an extensive description is given in graphical as well as in tabular form, much emphasis being placed on the discussion of the experimental material within the framework of physics, chemistry and material science.