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Spintronics in Nanoscale Devices de Eric R. Hedin

Spintronics in Nanoscale Devices

Editat de Eric R. Hedin, Yong S. Joe
en Limba Engleză Hardback – 20 aug 2013
By exploiting the novel properties of quantum dots and nanoscale Aharonov–Bohm rings together with the electronic and magnetic properties of various semiconductor materials and graphene, researchers have conducted numerous theoretical and computational modeling studies and experimental tests that show promising behavior for spintronics applications. The book provides researchers investigating this cutting-edge field with detailed background descriptions of spin-based effects and devices and their theoretical analysis in nanoelectronic circuits.
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Specificații

ISBN-13: 9789814411691
ISBN-10: 9814411698
Pagini: 222
Ilustrații: 72 b/w images and 10 color images
Dimensiuni: 152 x 229 x 15 mm
Greutate: 0.45 kg
Ediția:1
Editura: Jenny Stanford Publishing
Colecția Jenny Stanford Publishing

Public țintă

Academic and Postgraduate

Cuprins

Spin-Polarized Transport in Quantum Dots System with Rashba Spin-Orbit Interaction. Optical Properties of Spins in Coupled Semiconductor Quantum Dots. Triangular Triple Quantum Dots Driven by AC Magnetic Fields. Spin Polarized Transmission through Single and Double Aharanov-Bohm Rings with Embedded Quantum Dots. Atomistic Tight-Binding Simulation of Spin-Orbit Coupled Semiconductor Devices. Hybrid Spintronic/Straintronics: A Super Energy-Efficient Computing Paradigm Based on Interacting Multiferroic Nanomagnets. The magnetic Properties of Nanostructures Synthesized on Vicinal Surface. Magnetism and Spintronics in Graphene.

Descriere

By exploiting the novel properties of quantum dots and nanoscale Aharonov–Bohm rings together with the electronic and magnetic properties of various semiconductor materials and graphene, researchers have conducted numerous theoretical and computational modeling studies and experimental tests that show promising behavior for spintronics applications. Spin polarization and spin-filtering capabilities and the ability to manipulate the electron spin state through external magnetic or electric fields have demonstrated the promise of workable nanoscale devices for computing and memory applications. This book provides researchers investigating this cutting-edge field with detailed background descriptions of spin-based effects and devices and their theoretical analysis in nanoelectronic circuits.