Spintronics Fundamentals And Applications Pdf

spintronics fundamentals and applications pdf

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Spintronics, or spin electronics, involves the study of active control and manipulation of spin degrees of freedom in solid-state systems.

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Graphene in Spintronics: Fundamentals and Applications

Request PDF Spintronics: Fundamentals and applications Spintronics, or spin electronics, involves the study of active control and. Spintronic devices. Page 2. Spintronic devices - applications ghqt. Recent advances in new materials engineering hold the promise of realizing spintronic devices in the near future.

Spintronic 2D Materials: Fundamentals and Applications provides an overview of the fundamental theory of 2D electronic systems that includes a selection of the most intensively investigated 2D materials. The book tells the story of 2D spintronics in a systematic and comprehensive way, providing the growing community of spintronics researchers with a key reference. Part One addresses the fundamental theoretical aspects of 2D materials and spin transport, while Parts Two through Four explore 2D material systems, including graphene, topological insulators, and transition metal dichalcogenides. Each section discusses properties, key issues and recent developments. In addition, the material growth method from lab to mass production , device fabrication and characterization techniques are included throughout the book. Graduate students and academic and industrial researchers in the disciplines of materials science, spintronics, physics, and nanoscience. Her research interest is in the areas of condensed matter physics, spintronics, nanomagnetism, low-dimensional materials and systems.

Spintronics applications pdf

Show full item record. JavaScript is disabled for your browser. Some features of this site may not work without it. Cavity spintronics: foundations and applications of spin-photon hybridization Harder, Michael. Date: Abstract: Light-matter interactions lie at the heart of condensed matter physics, providing physical insight into material behaviour while enabling the design of new devices. Perhaps this is most evident in the push to develop quantum information and spintronic technologies.

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Spintronics a portmanteau meaning spin transport electronics [1] [2] [3] , also known as spin electronics , is the study of the intrinsic spin of the electron and its associated magnetic moment , in addition to its fundamental electronic charge, in solid-state devices. Spintronics fundamentally differs from traditional electronics in that, in addition to charge state, electron spins are exploited as a further degree of freedom, with implications in the efficiency of data storage and transfer. Spintronic systems are most often realised in dilute magnetic semiconductors DMS and Heusler alloys and are of particular interest in the field of quantum computing and neuromorphic computing. Spintronics emerged from discoveries in the s concerning spin-dependent electron transport phenomena in solid-state devices. This includes the observation of spin-polarized electron injection from a ferromagnetic metal to a normal metal by Johnson and Silsbee [6] and the discovery of giant magnetoresistance independently by Albert Fert et al. The spin of the electron is an intrinsic angular momentum that is separate from the angular momentum due to its orbital motion. Like orbital angular momentum, the spin has an associated magnetic moment , the magnitude of which is expressed as.

Merging Spintronics with Plasmonics: Evidence of Electron Spin-Controlled Light Transport

Skip to Main Content. A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity. Use of this web site signifies your agreement to the terms and conditions. Bipolar spintronics: Fundamentals and applications Abstract: By incorporating spin-dependent properties and magnetism in semiconductor structures, new applications can be considered which go beyond magnetoresistive effects in metallic systems. Here we discuss the challenges for realizing a particular class of associated applications and our proposal for bipolar spintronic devices in which carriers of both polarities electrons and holes would contribute to spin-charge coupling.


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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.