Magneto-optical recording materials / edited by Richard J. Gambino, Takao Suzuki.
Contributor(s): Suzuki, T. (Takao) | Gambino, Richard J | John Wiley & Sons [publisher.] | IEEE Xplore (Online service) [distributor.].
Material type: BookPublisher: New York : IEEE Press, c2000Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [1999]Description: 1 PDF (xix, 444 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470545218.Subject(s): Computer storage devices -- Materials | Magnetooptical devices -- Materials | Thin films, Multilayered | Adaptive optics | Amorphous magnetic materials | Anisotropic magnetoresistance | Apertures | Biographies | Bismuth | CD-ROMs | Coercive force | DVD | Detectors | Drives | Films | Garnets | Indexes | Intensity modulation | Ions | Iron | Laser beams | Lattices | Lenses | Magnetic domain walls | Magnetic domains | Magnetic fields | Magnetic films | Magnetic hysteresis | Magnetic moments | Magnetic multilayers | Magnetic recording | Magnetization | Magnetooptic effects | Magnetooptic recording | Magnetostatics | Magnetostriction | Manganese | Media | Metals | Multimedia communication | Nonhomogeneous media | Optical crosstalk | Optical diffraction | Optical films | Optical imaging | Optical polarization | Optical recording | Optical reflection | Perpendicular magnetic recording | Reflectivity | Saturation magnetization | Servomotors | Signal resolution | Sputtering | Substrates | Temperature | Temperature measurement | Tracking | X-ray diffractionGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.39/76 Online resources: Abstract with links to resource Also available in print.Includes bibliographical references and index.
Preface. Acknowledgments. List of Contributors. Introduction (Takao Suzuki). Rare Earth -- Transition Metal Amorphous Alloy Media (Richard J. Gambino). New MO Recording Media Based on Pt/Co and Pd/Co Multilayersand Pt-Co Alloys (Peter F. Carcia and Takao Suzuki). Garnet Media (Takao Suzuki). Intermetallic Compounds and Ferrites (Takao Suzuki, Masanori Abe, James C. Suits). Domain Dynamics and Recording Physics in Magneto-OpticalRecording Media (Dieter Mergel). Exchange-Coupled Films (Shigeru Tsunashima). Light Intensity Modulation Direct Overwrite (Jun Saito). Magnetically Induced Superresolution (Masahiko Kaneko). Magneto-Optical Recording Systems (Y. Nakane, H. Yoshimura, S. Igarashi). DVD (Takao Suzuki). Index. About the Editors.
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"As digital data storage technology undergoes enormous change, electrical engineers, physicists, and materials scientists need to keep pace with the materials requirements for recording media. Expert contributors -- together with world-class authorities Richard J. Gambino and Takao Suzuki -- bring you a practical, comprehensive guide to materials design and selection for magneto-optical storage media. This authoritative book explores multilayered thin films, exchanged coupled layers, materials used in current products, and materials of potential interest not yet available in practical applications. A detailed analysis concerning the physics of magneto-optical recording will help you make informed decisions about materials properties. You will also find an extensive discussion of systems and engineering design features for magneto-optical storage devices. This discussion will help you to understand how materials properties impact system performance. You will gain additional insight into this fast-developing field through in-depth coverage of these featured topics: * Rare earth-transition metal amorphous alloys, multilayers, garnets, intermetallic compounds, and ferrites * Basic principles of domain dynamics and recording physics * Latest developments in exchange coupled layers, direct overwrite, and magnetic superresolution * Minidisc, future high-density systems, and DVD format. MAGNETO-OPTICAL RECORDING MATERIALS is essential reading for anyone who needs to keep up-to-date with the latest advances in digital data storage technology.".
Also available in print.
Mode of access: World Wide Web
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