
Magnetism in Topological Insulators
Kurzinformation



inkl. MwSt. Versandinformationen
Artikel zZt. nicht lieferbar
Artikel zZt. nicht lieferbar

Beschreibung
This book serves as a brief introduction to topological insulator physics and device applications. Particular attention is paid to the indirect exchange interaction mediated by near surface Dirac fermions and the spin texture this interaction favors. Along with useful information on semiconductor material systems, the book provides a theoretical background for most common concepts of TI physics. Readers will benefit from up to date information and methods needed to start working in TI physics, theory, experiment and device applications.Discusses inter-spin interaction via massless and massive Dirac excitations; Includes coverage of near-surface spin texture of the magnetic atoms as related to their mutual positions as well to their positions with respect to top and bottom surfaces in thin TI film; Describes non-RKKY oscillating inter-spin interaction as a signature of the topological state; Explains the origin of the giant Rashba interaction at quantum phase transition in TI-conventional semiconductors. von Litvinov, Vladimir
Produktdetails

So garantieren wir Dir zu jeder Zeit Premiumqualität.
Über den Autor
Vladimir Litvinov is a principal scientist at Sierra Nevada Corporation, Irvine, California, since 1999. He holds PhD and Doctor of Science degrees in physics from Chernivtsi National University (Ukraine) and the Institute of Physics, Estonian Academy of Sciences (since 1996 Institute of Physics, University of Tartu), respectively. From 1978 to 1996, he was a member and then head of the theoretical lab at the Institute of Materials Science, National Academy of Sciences of Ukraine. From 1996 to 1999, he was a senior research associate at the Center of Quantum Devices, Electrical and Computer Engineering Department, Northwestern University, Evanston, Illinois. His research interests include solid-state and semiconductor physics, optoelectronic devices, spintronics, and millimeter-wave scanning antennas.
- Gebunden
- 190 Seiten
- Erschienen 2012
- Wiley-VCH
- paperback
- 228 Seiten
- Erschienen 1975
- Harwood Academic (Medical, ...
- Gebunden
- 686 Seiten
- Erschienen 2008
- Springer
- hardcover
- 230 Seiten
- Erschienen 1999
- Birkhäuser
- Gebunden
- 285 Seiten
- Erschienen 2018
- Springer
- hardcover
- 364 Seiten
- Erschienen 2005
- Springer
- Hardcover
- 768 Seiten
- Erschienen 2000
- Wiley-Interscience
- Kartoniert
- 256 Seiten
- Erschienen 2001
- Oxford University Press, U....
- paperback
- 548 Seiten
- Erschienen 2008
- Springer
- Hardcover
- 300 Seiten
- Erschienen 2023
- Wiley-ISTE
- Gebunden
- 594 Seiten
- Erschienen 2011
- Wiley-VCH
- Taschenbuch
- 396 Seiten
- Erschienen 1995
- Stanford University Press
- library
- 32 Seiten
- Erschienen 2020
- AV2 BY WEIGL
- Gebunden
- 416 Seiten
- Erschienen 1991
- Springer
- hardcover
- 240 Seiten
- Erschienen 1996
- Springer
- Gebunden
- 190 Seiten
- Erschienen 2008
- Springer
- Gebunden
- 687 Seiten
- Erschienen 2010
- Wiley-VCH