Last edited by Nijinn
Thursday, July 16, 2020 | History

1 edition of Physics of Quantum Electron Devices found in the catalog.

Physics of Quantum Electron Devices

by Federico Capasso

  • 150 Want to read
  • 31 Currently reading

Published by Springer Berlin Heidelberg in Berlin, Heidelberg .
Written in English

    Subjects:
  • Electronics,
  • Optical materials

  • About the Edition

    The ability to engineer the bandstructure and the wavefunction over length scales previously inaccessible to technology using artificially structured materials and nanolithography has led to a new class of electron semiconductor devices whose operation is controlled by quantum effects. These structures not only represent exciting tools for investigating new quantum phenomena in semiconductors, but also offer exciting opportunities for applications. This book gives the first comprehensive treatment of the physics of quantum electron devices. This interdisciplinary field, at the junction between material science, physics and technology, has witnessed an explosive growth in recent years. This volume presents a detailed coverage of the physics of the underlying phenomena, and their device and circuit applications, together with fabrication and growth technology.

    Edition Notes

    Statementedited by Federico Capasso
    SeriesSpringer Series in Electronics and Photonics -- 28, Springer series in electronics and photonics -- 28.
    Classifications
    LC ClassificationsTA1750-1750.22
    The Physical Object
    Format[electronic resource] /
    Pagination1 online resource (xvi, 403p. 262 illus.)
    Number of Pages403
    ID Numbers
    Open LibraryOL27081003M
    ISBN 103642747531, 3642747515
    ISBN 109783642747533, 9783642747519
    OCLC/WorldCa851800495

    Quantum entanglement is the physical phenomenon that occurs when a pair or group of particles is generated, interact, or share spatial proximity in a way such that the quantum state of each particle of the pair or group cannot be described independently of the state of the others, including when the particles are separated by a large distance. The topic of quantum entanglement is at .   The Quantum World of Ultra-Cold Atoms and Light is a trilogy, which presents the quantum optics way of thinking and its applications to quantum devices. This book — The Physics of Quantum-Optical Devices — provides a comprehensive treatment of theoretical quantum optics. It covers applications to the optical manipulation of the quantum.

    8 Microwave Diodes; Quantum-Effect and Hot-Electron Devices MICROWAVE FREQUENCY BANDS TUNNEL DIODE IMPATT DIODE TRANSFERRED-ELECTRON DEVICES QUANTUM-EFFECT DEVICES HOT-ELECTRON DEVICES SUMMARY Many semiconductor devices - Selection from Semiconductor Devices: Physics and Technology, 3rd Edition [Book].   Quantum life: The weirdness inside us. interaction between quantum physics and biology stops with Schrödinger’s cat. the basic fuzziness of quantum mechanics, and is a staple of devices.

    Although quantum mechanics has been involved in device technologies for many years, the revolution which is taking place is to use the fundamental processes involved in quantum physics directly. These will be the key technology for the present century and will involve new concepts to exploit the many non-intuitive features of quantum systems. Physics of Semiconductor Devices is a textbook aimed at college undergraduate and graduate teaching. It covers both basic classic topics such as energy band theory and the gradual-channel model of the MOSFET as well as advanced concepts and devices such as MOSFET short-channel effects, low-dimensional devices and single-electron transistors.


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Physics of Quantum Electron Devices by Federico Capasso Download PDF EPUB FB2

This book gives the first comprehensive treatment of the physics of quantum electron devices. This interdisciplinary field, at the junction between material science, physics and technology, has witnessed an explosive growth in recent years.

This volume presents a detailed coverage of the physics of the underlying phenomena, and their device and. This book gives the first comprehensive treatment of the physics of quantum electron devices.

This interdisciplinary field, at the junction between material science, physics and technology, has witnessed an explosive growth in recent years. ISBN: OCLC Number: Description: xvi, pages: illustrations ; 25 cm. Contents: The Nature of Molecular Beam Epitaxy and Consequences for Quantum Microstructures / A.

Madhukar --Nanolithography for Ultra-Small Structure Fabrication.H.G. Craighead --Theory of Resonant Tunnelling and. Introduction to the Physics of Electron Emission is a valuable learning tool for postgraduates studying quantum mechanics, statistical mechanics, solid state physics, electron transport, and beam physics.

It is also an indispensable resource for academic researchers and professionals who use electron sources, model electron emission, develop Cited by: The book covers the subjects of heterostructure growth techniques, band-offset theory and experiments, electron states, electron-photon interaction and related phenomena, electron transport and the operation of electronic, opto-electronic and photonic quantum well by:   The book addresses mathematical and numerical methods underlying electron emission, describing where the equations originated, how they are related, and how they may be correctly used to model actual sources for devices using electron beams.

Writing for the beam physics and solid state communities, the author explores applications of electron. This book provides an introduction to the physics of nanoelectronics, with a focus on the theoretical aspects of nanoscale devices. The book begins with an overview of the mathematics and quantum mechanics pertaining to nanoscale electronics, to facilitate the understanding of subsequent chapters.

It goes on to encompass quantum electronics. Technology of Quantum Devices covers a wide range of topics in solid state physics, presenting an overview of areas like photonics, semiconductors and crystals. The book presents the most up-to-date developments in semiconductor physics and nano-engineering, with a particular focus on specific areas like compound semiconductors, crystal growth.

Quantum well devices have been the objects of intensive research during the last two decades. Some of the devices have matured into commercially useful products and form part of modern electronic circuits.

Some others require further dev- opment, but have the promise of being useful commercially in the near future. Study of the devices is, therefore, gradually. This book describes the physics of computing at all levels of abstraction from single gates to complete computer systems.

It can be used as a course for juniors or seniors in computer engineering and electrical engineering, and can also be used to teach students in other scientific disciplines important concepts in computing.

The book covers the subjects of heterostructure growth techniques, band-offset theory and experiments, electron states, electron-photon interaction and related phenomena, electron transport and the operation of electronic, opto-electronic and photonic quantum well devices.

The book covers the subjects of heterostructure growth techniques, band-offset theory and experiments, electron states, electron-photon interaction and related phenomena, electron transport and the operation of electronic, opto-electronic and photonic quantum well : $   The most up-to-date book available on the physics of photonic devices This new edition of Physics of Photonic Devices incorporates significant advancements in the field of photonics that have occurred since publication of the first edition (Physics of Optoelectronic Devices).

New topics covered include a brief history of the invention of semiconductor lasers, /5(2). Quantum physics is a catch-all term for the ideas, devices and technologies made possible by the development of quantum mechanics in the early part of the 20th century.

This note concentrates on the ideas behind quantum mechanics itself, but the broader field of quantum physics encompasses everything from the science of electronic devices and. Physics of Semiconductor Devices (3rd ed.) by Simon M. Sze. semiconductor sensors, quantum-cascade lasers, single-electron transistors, real-space transfer devices, and more Materials completely reorganized Problem sets at the end of each chapter All figures reproduced at the highest quality Physics of Semiconductor Devices, Third Edition.

Welcome to the Quantum Devices team. Link to nice YouTube presentation of our latest QuanTELCO EU research project. The Quantum Devices team of prof.

Caspar van der Wal performs experimental research that focuses on the quantum physics of electron spin ensembles and nuclear spin ensembles in semiconductor t projects study electron spin. Reset your password. If you have a user account, you will need to reset your password the next time you login.

You will only need to do this once. blocks of semiconductor device structures. In particular, since quantum ef-fect are more easy to see in lower-dimensional systems, it concentrates on the essential physics necessary to understand semiconductor devices containing single, or.

His book Physics of Semiconductor Devices (Wiley) is one of the most cited works in contemporary engineering and applied science publications (o citations from ISI Press).

Sze is the recipient of numerous awards and holds such titles as Life Fellow of the IEEE, Academician of the Academia Sinica, and member of the US National.

Modern Physics: The Quantum Physics of Atoms, Solids, and Nuclei: Third Edition An analytical introduction to much of the basic physics developed in the twentieth century is presented in this book.

The new physics has been of great intrinsic interest, almost a new science in itself, and in addition has provided applications in engineering Brand: Dover Publications.

The most up-to-date book available on the physics of photonic devices This new edition of Physics of Photonic Devices incorporates significant advancements in the field of photonics that have occurred since publication of the first edition (Physics of Optoelectronic Devices).

New topics covered include a brief history of the invention of semiconductor lasers, Author: Shun Lien Chuang.Among numerous examples, two key systems are studied in detail: the two-dimensional electron gas, employed in field-effect transistors, and the quantum well, whose optical properties find application in lasers and other opto-electronic devices.

The book includes many exercises and will be invaluable to undergraduate and first-year graduate Cited by: Without this leap in understanding the natural world, the development of semiconductor devices (and more advanced electronic devices still under development) would never have been possible.

Quantum physics is an incredibly complicated realm of science. This chapter is Author: Tony R. Kuphaldt.