Handbook of Self Assembled Semiconductor Nanostructures for Novel Devices in Photonics and Electronics

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August 2008



In 1969, Leo Esaki (1973 Nobel Laureate) and Ray Tsu from IBM, USA, proposed research on 'man-made crystals' using a semiconductor superlattice. This title brings together various factors which are essential in self-organisation of quantum nanostructures. It reviews the status of research and development in self-organised nanostructured materials.


1. QD Technologies 2. Self-Assembly Processes in Compound Semiconductor Films 3. RHEED of quantum dots 4. Quantum Dots on AlxGa1-xAs Surfaces and in AlxGa1-xAs Matrixes 5. Self-organization and ordering in the growth of quantum dot multilayers 6. Interaction of light with structures of quantum dots 7. Optical Properties of In(Ga)As/GaAs Quantum Dots for Optoelectronic Devices 8. Optical Properties of Self-Assembled GaN Quantum Dots 9. GaSb/GaAs quantum nanostructures by molecular beam epitaxy 10. Pulsed Laser Deposition of Self-Assembled ZnO Nanowires:Structural and Optical Properties 11. Optical properties of Ge(Si) self-assembled islands 12. Quantum dot formation studied at the atomic scale by cross-sectional scanning tunneling microscopy 13. Quantum optics with single quantum dot devices. 14. High-field Magneto-photoluminescence Spectroscopy 15. Effects of the Electron-Phonon Interaction in Semiconductor Quantum Dots 16. Radiation Effects In Quantum-Size Semiconductor Structures 17. Quantum dot strain engineering for long-wavelength photonic devices 18. QD based mode-locked lasers 19. Quantum Dot Superluminescent Diodes 20. Quantum-Dot Infrared Photodetectors 21. Quantum Dots Solar Cells 22. Advanced growth techniques of InAs-system quantum dots for integrated nanophotonic circuits 23. Optically driven schemes for quantum computation based on self-assembled quantum dots 24. Nanocrystal Semiconductors 25. Colloidal CdSe/ZnS quantum dots as single-photon sources. 26. Colloidal Quantum Dots: Useful tools for biological labeling 27. Physicochemical Properties and Cellular Toxicity of Nanocrystal Quantum Dots 28. Electrical and Optical Properties of Colloidal Quantum Dots and Related Applications in Quantum Dot Networks


Dr M. Henini has over 20 years' experience of Molecular Beam Epitaxy (MBE) growth and has published >700 papers. He has particular interests in the MBE growth and physics of self-assembled quantum dots using electronic, optical and structural techniques. Leaders in the field of self-organisation of nanostructures will give an account on the formation, properties, and self-organization of semiconductor nanostructures.
EAN: 9780080463254
ISBN: 0080463258
Untertitel: Sprache: Englisch.
Erscheinungsdatum: August 2008
Seitenanzahl: 841 Seiten
Format: gebunden
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