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Handbook of Spin Transport and Magnetism





ISBN 9780367576899
Published June 30, 2020 by Chapman and Hall/CRC
806 Pages

 
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Book Description

In the past several decades, the research on spin transport and magnetism has led to remarkable scientific and technological breakthroughs, including Albert Fert and Peter Grünberg’s Nobel Prize-winning discovery of giant magnetoresistance (GMR) in magnetic metallic multilayers. Handbook of Spin Transport and Magnetism provides a comprehensive, balanced account of the state of the art in the field known as spin electronics or spintronics. It reveals how key phenomena first discovered in one class of materials, such as spin injection in metals, have been revisited decades later in other materials systems, including silicon, organic semiconductors, carbon nanotubes, graphene, and carefully engineered nanostructures.





The first section of the book offers a historical and personal perspective of the field written by Nobel Prize laureate Albert Fert. The second section addresses physical phenomena, such as GMR, in hybrid structures of ferromagnetic and normal metals. The third section discusses recent developments in spin-dependent tunneling, including magnetic tunnel junctions with ferroelectric barriers. In the fourth section, the contributors look at how to control spin and magnetism in semiconductors. In the fifth section, they examine phenomena typically found in nanostructures made from metals, superconductors, molecular magnets, carbon nanotubes, quantum dots, and graphene. The final section covers novel spin-based applications, including advanced magnetic sensors, nonvolatile magnetoresistive random access memory, and semiconductor spin-lasers.





The techniques and materials of spintronics have rapidly evolved in recent years, leading to vast improvements in hard drive storage and magnetic sensing. With extensive cross-references between chapters, this seminal handbook provides a complete guide to spin transport and magnetism across various classes of materials and structures.

Table of Contents

Introduction. Spin Transport and Magnetism in Magnetic Metallic Multilayers. Spin Transport and Magnetism in Magnetic Tunnel Junctions. Spin Transport and Magnetism in Semiconductors. Spin Transport and Magnetism at the Nanoscale. Applications.

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Editor(s)

Biography

Evgeny Y. Tsymbal is a Charles Bessey Professor of Physics and the director of the Materials Research Science and Engineering Center at the University of Nebraska–Lincoln (UNL). Dr. Tsymbal is a fellow of the American Physical Society, a fellow of the Institute of Physics (UK), and a recipient of UNL’s Outstanding Research and Creativity Award. His research in computational materials science focuses on the understanding of fundamental properties of advanced ferromagnetic and ferroelectric nanostructures and materials relevant to nanoelectronics and spintronics.





Igor Žutić is an associate professor of physics at the University at Buffalo (State University of New York). Dr. Žutić has been a recipient of the National Science Foundation CAREER Award, the National Research Council/American Society for Engineering Education Postdoctoral Research Award, and the National Research Council Fellowship. His research encompasses spin transport, magnetism, spintronics, and superconductivity.