1 edition of Optical Phenomena in Semiconductor Structures of Reduced Dimensions found in the catalog.
Published
1993
by Springer Netherlands in Dordrecht
.
Written in
Remarkable advances in semiconductor growth and processing technologies continue to have a profound impact on condensed-matter physics and to stimulate the invention of novel optoelectronic effects. Intensive research on the behaviors of free carriers has been carried out in the two-dimensional systems of semiconductor heterostructures and in the one and zero-dimensional systems of nanostructures created by the state-of-the-art fabrication methods. These studies have uncovered unexpected quantum mechanical correlations that arise because of the combined effects of strong electron-electron interactions and wave function confinement associated with reduced dimensionality. The investigations of these phenomena are currently at the frontiers of condensed-matter physics. They include areas like the fractional quantum Hall effect, the dynamics of electrons on an ultra short (femtosecond) time scale, electron behavior in quantum wires and dots, and studies of electron tunneling phenomena in ultra small semiconductor structures. Optical techniques have made important contributions to these fields in recent years, but there has been no coherent review of this work until now. The book provides an overview of these recent developments that will be of interest to semiconductor materials scientists in university, government and industrial laboratories.
Edition Notes
| Other titles | Proceedings of the NATO Advanced Research Workshop on Frontiers of Optical Phenomena in Semiconductor Structures of Reduced Dimensions, Yountville, California, USA, July 27-31, 1992 |
| Statement | edited by David J. Lockwood, Aron Pinczuk |
| Series | NATO ASI Series, Series E: Applied Sciences -- 248, NATO ASI Series, Series E: Applied Sciences -- 248 |
| Contributions | Pinczuk, Aron |
| Classifications | |
|---|---|
| LC Classifications | QC350-467, TA1501-1820, QC392-449.5, TA1750-1750.22 |
| The Physical Object | |
| Format | [electronic resource] / |
| Pagination | 1 online resource (xiii, 454 p.) |
| Number of Pages | 454 |
| ID Numbers | |
| Open Library | OL27078893M |
| ISBN 10 | 9401048452, 9401119120 |
| ISBN 10 | 9789401048453, 9789401119122 |
| OCLC/WorldCa | 851378109 |
The optical properties of semiconductor quantum wells embedded in one-dimensional photonic crystal structures are analyzed by a self-consistent solution of . electron phonon interaction in low dimensional structures series on semiconductor science and technology Posted By Louis L Amour Media TEXT ID d Online PDF Ebook Epub Library interacting with acoustic optical and intervalley modes here we use the prototypical two dimensional electron liquid 2del at the srtio 3 surface to reveal a.
A chapter that describes instabilities in semiconductor lasers concludes the book. This book is intended for research students and active research workers who are interested in the basic physics or in the device applications of optical nonlinearities and instabilities in Edition: 1. Optical Propagation and Refraction Phenomena In CMOS Integrated Circuit Structures. Since most optical simulation tools, such as those available on the free market today, are designed for application in the macro environment, we opted to design our own initial software tool for specific application in CMOS structures and by:
optical-electronic-optical or optical-electronic conversions. An approach that does not require the photons to leave the fiber would be preferable. The ultimate vision in this quest is all-fiber optoelectronics in which most, if not all, of the functions cur-Building Semiconductor Structures in Cited by: 5. The basic principles underlying optical nonlinearities are developed, including excitonic and many-body plasma effects. The fundamentals of optical bistability, semiconductor lasers, femtosecond excitation, optical Stark effect, semiconductor photon echo, magneto-optic effects, as well as bulk and quantum-confined Franz-Keldysh effects are covered.
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Optical Phenomena in Semiconductor Structures of Reduced Dimensions. Editors: Lockwood, D.J., Pinczuk, Aron (Eds.) Free Preview. Optical Phenomena in Semiconductor Structures of Reduced Dimensions by D. Lockwood,available at Book Depository with free delivery worldwide. Optical Phenomena in Semiconductor Structures of Reduced Dimensions.
Editors (view affiliations) David J. Lockwood and studies of electron tunneling phenomena in ultra small semiconductor structures. Optical techniques have made important contributions to these fields in recent years, but there has been no coherent review of this work until.
Optical Phenomena in Semiconductor Structures of Reduced Dimensions (Nato Science Series E: (Closed)) Softcover reprint of the original 1st ed.
Author: D.J. Lockwood. ISBN: OCLC Number: Notes: "Proceedings of the NATO Advanced Research Workshop on Frontiers of Optical Phenomena in Semiconductor Structures of Reduced Dimensions, Yountville, California, U.S.A., July".
Get this from a library. Optical Phenomena in Semiconductor Optical Phenomena in Semiconductor Structures of Reduced Dimensions book of Reduced Dimensions. [David J Lockwood; Aron Pinczuk] -- Remarkable advances in semiconductor growth and processing technologies continue to have a profound impact on condensed-matter physics and to stimulate the invention of novel optoelectronic effects.
Entdecken Sie "Optical Phenomena in Semiconductor Structures of Reduced Dimensions" von D.J. Lockwood und finden Sie Ihren Buchhändler. Remarkable advances in semiconductor growth and processing technologies continue to have a profound impact on condensed-matter physics and to stimulate the invention of novel optoelectronic effects.
Intensive research on the. Stutzmann M. et al. () Optical Properties of Siloxene and Siloxene Derivates. In: Lockwood D.J., Pinczuk A. (eds) Optical Phenomena in Semiconductor Structures of Reduced Dimensions.
NATO ASI Series (Series E: Applied Sciences), vol Cited by: 4. Publisher Summary. This chapter discusses the applications of quantum semiconductor structures. A new heterostructure type of FET has been developed that includes the two-dimensional electron gas field effect transistor also called high electron mobility transistor, modulation doped field effect transistor, or selectively doped heterojunction transistor.
Kupte si knihu Optical Phenomena in Semiconductor Structures of Reduced Dimensions:: za nejlepší cenu se slevou. Podívejte se i na další z miliónů zahraničních knih v naší nabídce. Zasíláme rychle a levně po ČR. This book is devoted to optical semiconductor devices and their numerous applications in telecommunications, optoelectronics, and consumer electronics-areas where signal processing or the transmission of signals across fiber optic cables is paramount.
It introduces a new generation of devices that includes optical modulators, quantum well (QW) lasers, and photodiodes and. damental physical phenomena. From a more practical point of view the resonant tunnelling transistor is an important new device in this field of low dimensional semiconductor structures.
The resonant tunnelling bipolar transistor was proposed by Capasso and Kieh15 in This type of transistor al. "The topics covered in the book include a good number of the important theoretical foundations of semiconductor optics and transport phenomena.
If the reader is interested in the theory of optical and transport phenomena, this is an appropriate book." Cited by: Page 1 Electronic, Optical, and Magnetic Materials and Phenomena: The Science of Modern Technology.
Important and unexpected discoveries have been made in all areas of condensed-matter and materials physics in the decade since the Brinkman report. 1 Although these scientific discoveries are impressive, perhaps equally impressive are technological advances during the.
What is an optical semiconductor. Optical semiconductor devices are divided into two major groups: luminescent devices (light-emitting diodes and laser diodes), and light-receiving devices (solar cells and photo-detectors).
The wavelengths of the light depend on the optical semiconductor materials used. Optical gain is the most important requirement for the realization of a semiconductor laser because it describes the optical amplification in the semiconductor material.
This optical gain is due to stimulated emission associated with light emission created by recombination of electrons and in other laser materials like in gas lasers or solid state lasers, the processes.
The optical properties of semiconductor NCs are determined by factors such as size, shape, surface and bulk defects, impurities, and crystallinity. The dependence on the NC size, the parameter that exerts the greatest influence, arises from changes to the surface-to-volume ratio with size, and quantum confinement, which modifies the density of.
Chapter 4 Fundamentals of Laser-Material Interaction and Application to Multiscale Surface Modification Matthew S. Brown and Craig B. Arnold Abstract Lasers provide the ability to accurately deliver large amounts of energy into confined regions of a material in order to achieve a desired response.
Based on a series of lectures at Berkeley, –, this is the first book to deal comprehensively with all of the phenomena involving light in semiconductors.
The author has combined, for the graduate student and researcher, a great variety of source material, journal research, and many years of experimental research, adding new insights published for the first time in this book.4/5(2). NONLINEAR OPTICAL PHENOMENA AND MATERIALS text by Zernike & Midwinter (37).
Finally, a text covering all aspects of nonlinear optics is to appear soon (38). Nonlinear Devices The primary application of nonlinear materials is the generation of new frequencies not available with existing laser sources.
The desirable optical properties associated with highly nonlinear dispersions have long inspired research into materials systems with intrinsically strong light-matter coupling, e.g. CdS, and ZnO, but as Ω R is fixed in bulk materials and damping limits practical access to interesting optical effects on resonance, the practical implications of light-matter coupling in bulk semiconductors Cited by: A 'read' is counted each time someone views a publication summary (such as the title, abstract, and list of authors), clicks on a figure, or views or downloads the full-text.The first edition included a number of subjects that are not normally covered in standard texts, notably semiconductor quantum wells, molecular materials, vibronic solid state lasers, and nonlinear optics.
The basic structure of the second edition is unchanged, but all of the chapters have been updated and improved.
