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Recombination in semiconductors

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Published by Cambridge University Press in Cambridge, New York .
Written in English

Subjects:

  • Semiconductors -- Recombination.

Book details:

Edition Notes

Includes bibliographical references (p. 542-572) and indexes.

StatementPeter T. Landsberg.
Classifications
LC ClassificationsQC611.6.R43 L36 1991
The Physical Object
Paginationxxii, 595 p. :
Number of Pages595
ID Numbers
Open LibraryOL1884681M
ISBN 100521361222
LC Control Number90045623

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This book is devoted to the main aspects of the physics of recombination in semiconductors. It is the first book to deal exclusively and comprehensively with the subject, and as such is a self-contained volume, introducing the concepts and mechanisms of recombination from a fundamental point of view. Professor Landsberg is an internationally acknowledged expert in this field, and while not. book. recombination in semiconductors truly offers what everybody wants. The choices of the words, dictions, and how the author conveys the notice and lesson to the readers are categorically simple to understand. So, subsequently you vibes bad, you may not think hence difficult just about this book. Buy Recombination in Semiconductors by Peter T. Landsberg (ISBN: ) from Amazon's Book Store. Everyday low prices and free delivery on eligible orders. Recombination and generation are always happening in semiconductors, both optically and thermally. As predicted by thermodynamics, a material at thermal equilibrium will have generation and recombination rates that are balanced so that the net charge carrier density remains constant. The resulting probability of occupation of energy states in each energy band is given by Fermi–Dirac .

Nonradiative Recombination in Semiconductors. Edited by V.N. ABAKUMOV, V.I. PEREL, I.N. YASSIEVICH. Vol Pages () Download full volume. Previous volume. Next volume. Book chapter Full text access CHAPTER 9 - Multiphonon Capture and Thermal Emission Pages Recombination at surfaces and interfaces can have a significant impact on the behavior of semiconductor devices. This is because surfaces and interfaces typically contain a large number of recombination centers because of the abrupt termination of the semiconductor crystal, which leaves a large number of electrically active states. Radiative Recombination. Radiative recombination is the mechanism responsible for photoemission in semiconductor light emitting diodes and is mainly associated with band to band recombination as a result of the high energy differences associated with a complete band gap transition. Direct band to band recombination is only possible in materials with extremely low defect concentrations due to. Semiconductor Physics LATTICE DISLOCATIONS Dislocations deviates from the perfect periodicity. The surface is an obvious example. Energy states in the band gap becomes recombination centres, “stepping stones”. These increases the probability of recombination, i.e. reduce the .

4. Recombination with Defect Levels (Shockley-Read-Hall) Last updated; Save as PDF Page ID ; References; It is known that the presence of impurities or crystal defects in semiconductors determines the lifetime of carriers, because a modified electronic structure within the crystal will give rise to defect levels, or energy levels that do not lie near the edge of the band gap. In recent years, great progress has been made in the understanding of recombination processes controlling the number of excess free carriers in semiconductors under nonequilibrium conditions. As a result, it is now possible to give a comprehensive theoretical description of these processes. The authors have selected a number of experimental results which elucidate the underlying physical. Recombination in low-dimensional semiconductor structures R. I. Taylor; References; Name index; Index of topics, concepts and materials. Publication: Recombination in Semiconductors. 5 Channels of radiative recombination in semiconductors; 6 Non-radiative recombination; 7 Luminescence of excitons; 8 Highly excited semiconductors; 9 Luminescence of disordered semiconductors; Public users can however freely search the site and view the abstracts and keywords for each book and chapter.