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Handbook of Spintronics

  • Reference work
  • © 2016

Overview

Editors:
  1. Yongbing Xu

    1. York-Nanjing International Center of Spintronics, Nanjing University, Nanjing, China

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  2. David D. Awschalom

    1. Institute for Molecular Engineering, University of Chicago, Chicago, USA

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  3. Junsaku Nitta

    1. Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai, Japan

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    You can also search for this editor in PubMed   Google Scholar

  • Broadens understanding of all aspects of spintronics science and Technology
  • Covers fundamental physics, materials properties and processing, device technology and applications
  • Brings international and leading researchers’ work in academia and industry together
  • Provides readers with an up-to-date and comprehensive review of the dynamic field of spintronics
  • Includes supplementary material: sn.pub/extras

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Table of contents (39 entries)

  1. Front Matter

    Pages i-xxiv
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  2. Physical Principles

    1. Front Matter

      Pages 1-1
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    2. Theory of Giant Magnetoresistance and Tunneling Magnetoresistance

      • Xiaoguang Zhang, William Butler
      Pages 3-69

    3. Spin Quantum Computing

      • Philipp R. Struck, Guido Burkard
      Pages 71-103

  3. Materials: Metallic Thin Films and Recording Media

    1. Front Matter

      Pages 105-105
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    2. Metallic Multilayers: Discovery of Interlayer Exchange Coupling and GMR

      • Peter Grünberg, Daniel E. Bürgler
      Pages 107-126

    3. CPP-GMR: Materials and Properties

      • Jack Bass
      Pages 127-175

  4. Materials: Magnetic Tunneling Structures

    1. Front Matter

      Pages 177-177
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    2. TMR and Al-O Based Magnetic Tunneling Junctions

      • Xiu-Feng Han
      Pages 179-225

    3. Magnetic Nanoparticles and Granular Thin Films

      • X. J. Yao, W. Zhong, C. T. Au, Y. W. Du
      Pages 227-252

    4. Exchange Bias Material: FeMn

      • Shiming Zhou, Li Sun, Jun Du
      Pages 253-281

  5. Materials: Hybrid Materials

    1. Front Matter

      Pages 283-283
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    2. Magnetic/III-V Semiconductor Based Hybrid Structures

      • Yongbing Xu, Johnny Wong, Wenqing Liu, Daxin Niu, Wen Zhang, Yongxiong Lu et al.
      Pages 285-333

    3. Heusler Compounds: Applications in Spintronics

      • Tanja Graf, Claudia Felser, Stuart S. P. Parkin
      Pages 335-364

    4. Hybrid Ferromagnetic/Ferroelectric Materials

      • Sebastiaan van Dijken
      Pages 365-398

    5. Electrical Spin Injection into InGaAs Quantum Dots

      • G. Kioseoglou, C. H. Li, B. T. Jonker
      Pages 399-430

    6. Spintronics of Topological Insulators

      • Kang L. Wang, Murong Lang, Xufeng Kou
      Pages 431-462

  6. Materials: Magnetic Semiconductors

    1. Front Matter

      Pages 463-463
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    2. III–V Based Magnetic Semiconductors

      • T. Jungwirth
      Pages 465-521

    3. Si Based Magnetic Semiconductors

      • John F. DiTusa
      Pages 523-561
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Keywords

About this book

This large reference work addresses a broad range of topics covering various aspects of spintronics science and technology, ranging from fundamental physics through materials properties and processing to established and emerging device technology and applications.  It comprises a collection of chapters from a large international team of leading researchers across academia and industry, providing readers with an up-to-date and comprehensive review of this dynamic field of research.

 

The opening chapters focus on the fundamental physical principles of spintronics in metals and semiconductors, including the theory of giant magnetoresistance and an introduction to spin quantum computing.  Materials systems are then considered, with sections on metallic thin films and multilayers, magnetic tunnelling structures, hybrid materials including Heusler compounds, magnetic semiconductors, molecular spintronic materials, carbon nanotubes and graphene.  A separate section describesthe various methods used in the characterisation of spintronics materials, including spin-polarised photoemission, x-ray diffraction techniques and spin-polarised SEM.

 

The third and final part of the Handbook contains chapters on spintronic device technology and applications, including spin valves, GMR and MTJ devices, MRAM technology, spin transistors and spin logic devices, spin torque devices, spin pumping and spin dynamics, and thermal effects in spintronics.

 

Each chapter builds from the fundamentals through to the state-of-the-art, also considering the challenges faced by researchers and containing some indication of the direction that future work in the field is likely to take.  This reference work will be an essential and long-standing resource for the spintronics community, whether in academic or industrial research.


Editors and Affiliations

  • York-Nanjing International Center of Spintronics, Nanjing University, Nanjing, China

    Yongbing Xu

  • Institute for Molecular Engineering, University of Chicago, Chicago, USA

    David D. Awschalom

  • Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai, Japan

    Junsaku Nitta

About the editors

Prof. Yongbing Xu, Chair in Nanotechnology, heads the Spintronics and Nanodevice Laboratory at the University of York. He is Director of the York University-Nanjing University Joint Center in Spintronics and NanoEngineering, "Qiangren" Professor of Nanjing University, and guest professor of several other Chinese universities.

Prof. David Awschalom is Professor of Physics at the University of California at Santa Barbara, USA. In 2001, he was additionally appointed as a professor of electrical and computer engineering. He is presently the Peter J. Clarke Director of the California NanoSystems Institute and Director of the Center for Spintronics and Quantum Computation.

Prof. Junsaku Nitta is professor in the Department of Materials Science at Tohoku University, Japan. He currently heads the Nitta Laboratory, where his area of expertise is spintronics and magnetic properties.

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