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Spintronics Handbook, Second Edition: Spin Transport and Magnetism: Three Volume Set de Evgeny Y. Tsymbal

Spintronics Handbook, Second Edition: Spin Transport and Magnetism: Three Volume Set

Editat de Evgeny Y. Tsymbal, Igor Žutić
en Limba Engleză Paperback – 31 mar 2021
The second edition offers an update on the single most comprehensive survey of the two intertwined fields of spintronics and magnetism, covering the diverse array of materials and structures, including silicon, organic semiconductors, carbon nanotubes, graphene, and engineered nanostructures. It focuses on seminal pioneering work, together with the latest in cutting-edge advances, notably extended discussion of two-dimensional materials beyond graphene, topological insulators, skyrmions, and molecular spintronics. The main sections cover physical phenomena, spin-dependent tunneling, control of spin and magnetism in semiconductors, and spin-based applications.
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Specificații

ISBN-13: 9780367777876
ISBN-10: 0367777878
Pagini: 2168
Dimensiuni: 178 x 254 x 108 mm
Greutate: 3.63 kg
Ediția:2 New edition
Editura: CRC Press
Colecția CRC Press

Cuprins

Volume 1. Metallic Spintronics. Section I. Introduction 1. Historical Overview: From Electron Transport in Magnetic Materials to Spintronics Section II. Magnetic Metallic Multilayers 2. Basics of Nano-thin Film Magnetism 3. Micromagnetism as a Prototype for Complexity 4. Giant Magnetoresistance 5. Spin Injection, Accumulation and Relaxation in Metals 6. Magnon Spintronics: Fundamentals of Magnon-based Computing 7. Spin Torque Effects in Magnetic Systems: Experiment 8. Spin Torque in Magnetic Systems: Theory 9. Spin-Orbit Torques: Experiments and Theory 10. All-Optical Switching of Magnetization: From Fundamentals to Nanoscale Recording Section III. Magnetic Tunnel Junctions 11. Tunneling Magnetoresistance: Experiment (Non-MgO) 12. Tunnel Magnetoresistance in MgO-based Magnetic Tunnel Junctions: Experiment 13. Tunneling Magnetoresistance: Theory 14. Spin Filter Tunneling 15. Spin-Injection Torque in Magnetic Tunnel Junctions 16. Phase-sensitive Interface and Proximity Effects in Superconducting Spintronics 17. Multiferroic Tunnel Junctions


Volume 2. Semiconductor Spintronics. Section IV. Spin Transport and Dynamics in Semiconductors 1. Spin Relaxation and Spin Dynamics in Semiconductors and Graphene 2. Electrical Spin Injection and Transport in Semiconductors 3. Spin Transport in Si and Ge: Hot Electron Injection and Detection Experiments 4. Tunneling Magnetoresistance, Spin-Transfer and Spinorbitronics with (Ga,Mn)As 5. Spin Transport in Organic Semiconductors 6. Spin Transport in Ferromagnet/III-V Semiconductor Heterostructures 7. Spin Polarization by Current 8. Anomalous and Spin-Injection Hall Effects Section V. Magnetic Semiconductors, Oxides and Topological Insulators 9. Magnetic Semiconductors: III-V Semiconductors 10. Magnetism of Dilute Oxides 11. Magnetism of Complex Oxide Interfaces 12. LaAlO3/SrTiO3: A Tale of Two Magnetisms 13. Electric-field Controlled Magnetism 14. Topological Insulators: From Fundamentals to Applications 15. Quantum Anomalous Hall Effect in Topological Insulators


Volume 3. Nanoscale Spintronics and Applications Section VI. Spin Transport and Magnetism at the Nanoscale 1. Spin-Polarized Scanning Tunneling Microscopy 2. Point Contact Andreev Reflection Spectroscopy 3. Ballistic Spin Transport 4. Graphene Spintronics 5. Spintronics in 2D Materials 6. Magnetism and Transport in Diluted Magnetic Semiconductor Quantum Dots 7. Spin Transport in Hybrid Nanostructures 8. Spin Caloritronics 9. Nonlocal Spin Valves in Metallic Nanostructures 10. Magnetic Skyrmions on Discrete Lattices 11. Molecular Spintronics Section VII. Applications 12. Magnetoresistive Sensors based on Magnetic Tunneling Junctions 13. Magnetoresistive Random Access Memory (MRAM) 14. Emerging Spintronic Memories 15. GMR Spin-Valve Biosensors 16. Semiconductor Spin-Lasers 17. Spin Transport and Magnetism in Electronic Systems 18. Spin Wave Logic Devices

Notă biografică



Evgeny Tsymbal is a George Holmes University Distinguished Professor at the Department of Physics and Astronomy of the University of Nebraska-Lincoln (UNL), Director of the UNL’s Materials Research Science and Engineering Center (MRSEC), and Director of the multi-institutional Center for NanoFerroic Devices (CNFD). Evgeny Tsymbal’s research is focused on computational materials science aiming at the understanding of fundamental properties of advanced ferromagnetic and ferroelectric nanostructures and materials relevant to nanoelectronics and spintronics. He is a fellow of the American Physical Society, a fellow of the Institute of Physics, UK, and a recipient of the Outstanding Research and Creativity Award (ORCA).


Igor Žutić is a Professor of Physics at the University at Buffalo, the State University of New York. His work spans topics from high-temperature superconductors, Majorana fermions, unconventional magnetism, proximity effects, and two-dimensional materials, to prediction of various spin-based devices that are not limited to the concept of magnetoresistance used in commercial application for magnetically stored information. Such devices, including spin photodiodes, spin solar cells, spin transistors, and spin lasers (front cover illustration) have already been experimentally demonstrated. Igor Žutic´ is a fellow of the American Physical Society, a recipient of 2006 National Science Foundation CAREER Award, and 2019 State University of New York Chancellor’s Award for Excellence.

Descriere

The second edition offers an update on the single most comprehensive survey of the two intertwined fields of spintronics and magnetism, covering the diverse array of materials and structures, including silicon, organic semiconductors, carbon nanotubes, graphene, and engineered nanostructures.