Quantum Semiconductor Structures: Fundamentals and Applications

Front Cover
Elsevier, May 12, 1991 - Science - 252 pages
In its original form, this widely acclaimed primer on the fundamentals of quantized semiconductor structures was published as an introductory chapter in Raymond Dingle's edited volume (24) of Semiconductors and Semimetals. Having already been praised by reviewers for its excellent coverage, this material is now available in an updated and expanded "student edition." This work promises to become a standard reference in the field. It covers the basics of electronic states as well as the fundamentals of optical interactions and quantum transport in two-dimensional quantized systems. This revised student edition also includes entirely new sections discussing applications and one-dimensional and zero-dimensional systems.

  • Available for the first time in a new, expanded version
  • Provides a concise introduction to the fundamentals and fascinating applications of quantized semiconductor structures
 

Selected pages

Contents

III
1
IV
5
V
11
VI
15
VII
19
VIII
20
IX
22
X
27
XXXVII
101
XXXVIII
112
XXXIX
116
XL
123
XLII
129
XLIII
131
XLIV
141
XLV
143

XI
28
XIII
33
XIV
37
XV
38
XVI
39
XVII
42
XVIII
43
XIX
44
XX
51
XXI
57
XXII
60
XXIII
61
XXIV
62
XXV
65
XXVI
69
XXIX
79
XXX
83
XXXI
85
XXXII
87
XXXIII
88
XXXIV
93
XXXV
96
XXXVI
98
XLVI
146
XLVII
149
XLVIII
152
XLIX
155
LI
158
LII
165
LIII
171
LIV
176
LV
178
LVI
179
LVII
184
LVIII
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LIX
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LX
191
LXI
197
LXII
205
LXIII
209
LXIV
215
LXV
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LXVI
219
LXVII
247
Copyright

Other editions - View all

Quantum Semiconductor Structures: Fundamentals and Applications
Claude Weisbuch,Borge Vinter
Limited preview - 2014

Common terms and phrases

A. C. Gossard absorption active layer AlGaAs Appl atomic bulk calculated capacitance carrier density cavity channel charge transfer circuit conduction band confining energy curve D. A. B. Miller D. C. Tsui diode donor doping E₁ electric field electro-optic electron and hole emitter energy levels Esaki excitation exciton exciton effects factor Fermi energy Fermi level field effect transistor GaAlAs GaAs GaAs/GaAlAs gain growth H. L. Störmer heterojunction heterostructures hot electron impurities increase interface Landau levels lasers layer thickness luminescence magnetic field matrix element mobility modulation nonlinear observed obtained optical optical cavity oscillator strength peak phonon Phys potential properties quantization Quantum Electron quantum Hall effect quantum wire quantum-well resonant Sakaki sample scattering semiconductor shown in Fig Solid State Commun spacer Störmer structures subband superlattice Technol tion transistor transitions tunneling undoped usual valence band wave function wavefunction Weisbuch Wiegmann

References to this book

Bibliographic information

TitleQuantum Semiconductor Structures: Fundamentals and Applications
AuthorsClaude Weisbuch, Borge Vinter
Editionillustrated
PublisherElsevier, 1991
ISBN0127426809, 9780127426808
Length252 pages
Subjects ›  › 

Science / Chemistry / Physical & Theoretical
Science / Physics / Condensed Matter
Science / Physics / General
Science / Physics / Quantum Theory
Technology & Engineering / Electrical
Technology & Engineering / Electronics / Semiconductors
Technology & Engineering / Optics
  
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