Xia / Liu / Sheng | Quantum Waveguide in Microcircuits (Second Edition) | Buch | 978-981-4968-30-0 | www.sack.de

Buch, Englisch, 432 Seiten, Format (B × H): 157 mm x 235 mm, Gewicht: 776 g

Xia / Liu / Sheng

Quantum Waveguide in Microcircuits (Second Edition)


2. Auflage 2025
ISBN: 978-981-4968-30-0
Verlag: Jenny Stanford Publishing

Buch, Englisch, 432 Seiten, Format (B × H): 157 mm x 235 mm, Gewicht: 776 g

ISBN: 978-981-4968-30-0
Verlag: Jenny Stanford Publishing

Integrated circuits were developed following Moore’s law. Moore’s law predicts that the degree of microprocessor integration would double every 18 months in DRAM. However, as the size of circuit elements approaches its physical limit, the optical method used in manufacturing 16 nm-node chips is also approaching a limit. Although the scaling of microelectronic circuit elements still follows Moore’s law, the unit density of power consumption will become unacceptable. Therefore, on the one hand, people continuously develop the microelectronic technology, and on the other, they consider the developing road after Moore’s law is broken, i.e., more Moore’s law or more-than Moore’s law.

Physically, when the scale of a circuit element decreases to 10 nm or even less, the quantum effect will appear and play a more and more important role. The electron transport becomes non-classical and non-linear, and even the electron motion likes the waveguide motion. This book introduces some theories and experiments of quantum transport and consists of two parts: (1) Non-Classical and Non-Linear Transport and (2) Quantum Waveguide Theory. It provides some foundations of semiconductor micro- and nanoelectronics for the after-Moore age. The two new chapters in this edition present investigations on (1) mesoscopic transport and (2) Rashba electron’s spin transport in a straight waveguide with a stub that has a smooth boundary.

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Zielgruppe

Academic and Postgraduate

Autoren/Hrsg.

Xia, Jian-Bai
Liu, Duan-Yang
Sheng, Wei-Dong

Fachgebiete

Weitere Infos & Material

Introduction Part I Non-Classical Non-Linear Transport 1. Properties of Quantum Transport 2. Non-equilibrium Transport 3. Reasonant Tunneling 4. Longitudinal Transport of Superlattices 5. Mesoscopic Transport 6. Transport in Quantum Dots 7. Silicon Single-Electron Transitor 8. Silicon Single-Electron Memory Part II Quantum Waveguide Theory in Mesoscopic Systems 9. Properties of Quantum Transport 10. One Dimensional Quantum Waveguide Theory 11. Two-Dimensional Quantum Waveguide Theory 12. One-Dimensional Quantum Waveguide Theory of a Rashba Electron 13. 1D Quantum Waveguide Theory of Rashba Electrons in Curved Circuits 14. Spin Polarization of a Rashba Electron with a Mixed State 15. Two-Dimensional Quantum Waveguide Theory of Rashba Electrons 16. Conductance of Rashba Electron in a Quantum Waveguide with Smooth Boundary 17. Spin Flip in a Quantum Ring

Jian-Bai Xia is a professor at the Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China. He has several firsts to his credit. Prof. Xia was the first to propose the plane wave expansion method, tensor model of quantum spheres, effective-mass theory of (11N)-oriented superlattices, and hole tunneling theory. He developed a systematic method in the framework of the effective-mass theory to study the electronic structures of quantum dots and wires in a magnetic or electric field, especially spin-related properties, besides predicting a series of new phenomena relating to quantum dots, quantum wires, and nanofilms. A recipient of many awards and honors, Prof. Xia has published more than 105 articles, authored or coauthored 2 monographs, and served in important capacities in several universities.

Duan-Yang Liu received his BS in applied physics from the College of Science, Tsinghua University, Beijing, China, in 2006 and a PhD in condensed matter physics from the Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China, in 2011. Since 2011, he has been a lecturer in the Physics Department, College of Science, Beijing University of Chemical Technology, Beijing, China. He is currently engaged in research on semiconductor physics, especially carrier transport in low-dimensional semiconductor devices.

Wei-Dong Sheng is a professor in the Department of Physics, Fudan University, Shanghai, China. From 1996 to 1999, he developed systematic transfer-matrix and scattering-matrix approaches to ballistic transport in quantum waveguides and investigated electron waveguide couplers, magneto-transport through edge states, and quantum coherent networks. From 2000 to 2008, he developed a comprehensive framework of numerical approaches to strain distribution, electronic structure, and optical properties of self-assembled quantum dots and is currently engaged in developing an efficient configuration-interaction method for strongly correlated electron systems. Prof. Sheng has held significant positions in many universities.

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