Semiconductor nanodevices[electronic resource] :physics, technology and applications
- 其他作者: Ritchie, David,
- 出版: Amsterdam : Elsevier 2021.
- 稽核項: 1 online resource.
- 叢書名: Frontiers of nanoscience ;volume 20
- 標題: Nanostructures , Semiconductors , Nanostructured materials. , Semiconductors. , Electronic books.
- ISBN: 012822083X , 9780128220832
- 試查全文@TNUA:
- 附註: 1. Introduction Part I: Growth, Fabrication and Characterisation Techniques (including seminal work) 2. Semiconductor Growth, MBE, MOCVD 3. Fabrication Techniques Contacts Gates: Wet and Dry Etching; E beam Lithography 4. Microscopy techniques, SEM, TEM, AFM, etc - Rachel Oliver (Cambridge) 5. Low Temperature Optical Measurements 6. Low Temperature Electrical Measurements 7. Conclusion to Part I Part II Recent Research Advances 8. Self-assembled Semiconductor Nanowires InAs, Growth Techniques and Applications to Electrical and Optical Devices 9. Quantum Dots - Single and Entangled Photon Emitters 10. Quantum Dot Lasers 11. Quantum dot solar cells - Yoshi Okada (U Tokyo) 12. Solution Processed Quantum Dots 13. Electrostatically Defined Structures 1: Quantum Point Contacts 14. Electrostatically Defined Structures 2: Quantum Dots, Thermal Effects 15. Noise Measurements in Semiconductor Nanostructures 16. Single Electron Pumps 17. Single Atom Devices 18. Strong Spin-orbit Interaction Devices 19. Silicon Microelectronics: State of the Art 20. Silicon quantum computing devices 21. Polariton Quantum Fluids in Patterned Microcavities 22. 2D Materials 23. Topological Insulators 24. Conclusion to Part II.
- 電子資源: https://dbs.tnua.edu.tw/login?url=https://www.sciencedirect.com/science/book/9780128220832
- 系統號: 005324273
- 資料類型: 電子書
- 讀者標籤: 需登入
- 引用網址: 複製連結
Semiconductor Nanodevices: Physics, Technology and Applications explores recent advances in the field. The behaviour of these devices is controlled by regions of nanoscale dimensions which typically determine the local density of electronic states and lead to the observation of a range of quantum effects with significant potential for exploitation. The book opens with an introduction describing the development of this research field over the past few decades which contrasts quantum-controlled devices to conventional nanoscale electronic devices where an emphasis has often been placed on minimising quantum effects. This introduction is followed by seven chapters describing electrical nanodevices and five chapters describing opto-electronic nanodevices; individual chapters review important recent advances. These chapters include specific fabrication details for the structures and devices described as well as a discussion of the physics made accessible. It is an important reference source for physicists, materials scientists and engineers who want to learn more about how semiconductor-based nanodevices are being developed for both science and potential industrial applications. The section on electrical devices includes chapters describing the study of electron correlation effects using transport in quantum point contacts and tunnelling between one-dimensional wires; the high-frequency pumping of single electrons; thermal effects in quantum dots; the use of silicon quantum dot devices for qubits and quantum computing; transport in topological insulator nanoribbons and a comprehensive discussion of noise in electrical nanodevices. The optical device section describes the use of self-assembled III-V semiconductor nanostructures embedded in devices for a range of applications, including quantum dots for single and entangled photon sources, quantum dots and nanowires in lasers and quantum dots in solar cells. Explores the major industrial applications of semiconductor nanodevices Explains fabrication techniques for the production of semiconductor nanodevices Assesses the challenges for the mass production of semiconductor nanodevices
來源: Google Book
來源: Google Book
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