Recent Advances in Novel Materials for Future Spintronics

Recent Advances in Novel Materials for Future Spintronics

As we all know, electrons carry both charge and spin. The processing of information in conventional electronic devices is based only on the charge of electrons. Spin electronics, or spintronics, uses the spin of electrons, as well as their charge, to process information. Metals, semiconductors, and...

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Bibliographic Details
Main Author: Wang, Xiaotian (auth)
Other Authors: Chen, Hong (auth), Khenata, Rabah (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
Chemistry
n/a
doping
spin polarization
first-principle
quaternary Heusler alloy
electronic structure
Prussian blue analogue
first-principles calculations
first-principles calculation
magnetic anisotropy
pressure
Nb (100) surface
Dzyaloshinskii-Moriya interaction
optical properties
skyrmion
equiatomic quaternary Heusler compounds
Heusler alloy
interface structure
first principles
magnetism
spin transport
first-principles method
monolayer CrSi2
half-metallic material
H adsorption
half-metallic materials
lattice dynamics
spin gapless semiconductor
first-principle calculations
half-metallicity
bulk CrSi2
covalent hybridization
H diffusion
electronic property
MgBi2O6
physical nature
Mo doping
phase stability
mechanical anisotropy
quaternary Heusler compound
magnetic properties
exchange energy
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Description
Summary:As we all know, electrons carry both charge and spin. The processing of information in conventional electronic devices is based only on the charge of electrons. Spin electronics, or spintronics, uses the spin of electrons, as well as their charge, to process information. Metals, semiconductors, and insulators are the basic materials that constitute the components of electronic devices, and these types of materials have been transforming all aspects of society for over a century. In contrast, magnetic metals, half-metals (including zero-gap half-metals), magnetic semiconductors (including spin-gapless semiconductors), dilute magnetic semiconductors, and magnetic insulators are the materials that will form the basis for spintronic devices. This book aims to collect a range of papers on novel materials that have intriguing physical properties and numerous potential practical applications in spintronics.
Physical Description:1 electronic resource (152 p.)
ISBN:books978-3-03897-977-7
9783038979760
9783038979777
Access:Open Access

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