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Klappentext This new volume focuses on a new, exciting field of research: Spintronics, the area also known as spin-based electronics. The ultimate aim of researchers in this area is to develop new devices that exploit the spin of an electron instead of, or in addition to, its electronic charge. In recent years many groups worldwide have devoted huge efforts to research of spintronic materials, from their technology through characterization to modeling. The resultant explosion of papers in this field and the solid scientific results achieved justify the publication of this volume. Its goal is to summarize the current level of understanding and to highlight some key results and milestones that have been achieved to date. Semiconductor spintronics is expected to lead to a new generation of transistors, lasers and integrated magnetic sensors that can be used to create ultra-low power, high-speed memory, logic and photonic devices. In addition, development of novel devices such as spin-polarized light emitters, spin field effect transistors, integrated sensors and high-temperature electronics is anticipated. Zusammenfassung The ultimate aim of researchers in spintronics is to develop new devices which exploit the spin of an electron instead of! or in addition to! its electronic charge. Spintronics has emerged as one of the fastest growing areas of research. This text examines technological spintronic developments. Inhaltsverzeichnis 1. David D. Awschalom et al., Single spin coherence in Semiconductors 2. Jairo Sinova and A.H. MacDonald, Theory of spin-orbit effects in semiconductors 3. Jacek K. Furdyna et al., Fermi level effects on Mn incorporation in III-Mn-V ferromagnetic semiconductors 4. Tomas Jungwirthet al., Transport properties of ferromagnetic semiconductors 5. Hideo Ohno et al., Spintronic properties of ferromagnetic semiconductors 6. Charles Gould et al., Spintronic nanodevices 7. Joel Cibert et al., Quantum structures of II-VI diluted magnetic semiconductors 8. Agnieszka Wolos and Maria Kaminska, Magnetic impurities in wide band-gap III-V semiconductors 9. Tomasz Dietl, Exchange interactions and nano-scale phase separations in magnetically doped semiconductors 10. Hiroshi Katayama-Yoshida et al., Computational Nano-materials Design for the Wide Band-gap and High-Tc Semiconductor Spintronics 11. Masaaki Tanaka, Properties and functionalities of hybrid and composite structures...
Sommario
1. David D. Awschalom et al., Single spin coherence in Semiconductors
2. Jairo Sinova and A.H. MacDonald, Theory of spin-orbit effects in semiconductors
3. Jacek K. Furdyna et al., Fermi level effects on Mn incorporation in III-Mn-V ferromagnetic semiconductors
4. Tomas Jungwirthet al., Transport properties of ferromagnetic semiconductors
5. Hideo Ohno et al., Spintronic properties of ferromagnetic semiconductors
6. Charles Gould et al., Spintronic nanodevices
7. Joel Cibert et al., Quantum structures of II-VI diluted magnetic semiconductors
8. Agnieszka Wolos and Maria Kaminska, Magnetic impurities in wide band-gap III-V semiconductors
9. Tomasz Dietl, Exchange interactions and nano-scale phase separations in magnetically doped semiconductors
10. Hiroshi Katayama-Yoshida et al., Computational Nano-materials Design for the Wide Band-gap and High-Tc Semiconductor Spintronics
11. Masaaki Tanaka, Properties and functionalities of hybrid and composite structures
