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πŸ“

Evaluation of Advanced Semiconductor Materials by Electron Microscopy

✍ Scribed by Rob W. Glaisher, J. C. Barry, David J. Smith (auth.), David Cherns (eds.)

Publisher
Springer US
Year
1990
Tongue
English
Leaves
412
Series
NATO ASI Series 203
Edition
1
Category
Library
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✦ Synopsis

The last few years have ~een rapid improvements in semiconductor growth techniques which have produced an expanding range of high quality heterostructures for new semiconductor devises. As the dimensions of such structures approach the nanometer level, it becomes increasingly important to characterise materials properties such as composition uniformity, strain, interface sharpness and roughness and the nature of defects, as well as their influence on electrical and optical properties. Much of this information is being obtained by electron microscopy and this is also an area of rapid progress. There have been advances for thin film studies across a wide range of techniques, including, for example, convergent beam electron diffraction, X-ray and electron energy loss microanalysis and high spatial resolution cathodoluminescence as well as by conventional and high resolution methods. Important developΒ­ ments have also occurred in the study of surfaces and film growth phenomena by both microscopy and diffraction techniques. With these developments in mind, an application was made to the NATO Science Committee in late summer 1987 to fund an Advanced Research WorkΒ­ shop to review the electron microscopy of advanced semiconductors. This was subsequently accepted for the 1988 programme and became the "NATO Advanced Research Workshop on the Evaluation of Advanced Semiconductor Materials by Electron Microscopy". The Workshop took place in the pleasant and intimate surroundings of Wills Hall, Bristol, UK, during the week 11-17 September 1988 and was attended by fifty-five participants from fourteen countries.

✦ Table of Contents

Front Matter....Pages i-xi
HREM of Edge-on Interfaces and Defects....Pages 1-17
Image Processing Applied to HRTEM Images of Interfaces....Pages 19-31
II-VI Semiconductor Interfaces....Pages 33-45
High Resolution Electron Microscopy Study of Indium Distribution in InAs/GaAs Multilayers....Pages 47-58
Convergent Beam Electron Diffraction Studies of Defects, Strains and Composition Profiles in Semiconductors....Pages 59-74
HOLZ Diffraction from Semiconductor Superlattices....Pages 75-86
Determination of Composition and Ionicity by Critical Voltage and Other Electron Diffraction Methods....Pages 87-99
Measurement of Structure-Factor Phases by Electron Diffraction for the Study of Bonding in Non-Centrosymmetric Semiconductors....Pages 101-110
EDX and EELS Studies of Segregation in STEM....Pages 111-126
TEM-Cathodoluminescence Study of Single and Multiple Quantum Wells of MBE Grown GaAs/AlGaAs....Pages 127-141
EBIC Studies of Individual Defects in Lightly Doped Semiconductors: CdTe as an Example....Pages 143-157
Electronic Structure and Fermi Level Pinning Obtained with Spatially Resolved Electron Energy Loss Scattering....Pages 159-165
Epitaxial NiSi 2 and CoSi 2 Interfaces....Pages 167-181
The Fresnel Method for the Characterisation of Interfaces....Pages 183-202
Strains and Misfit Dislocations at Interfaces....Pages 203-216
TEM and STEM Observations of Composition Variations in III-V Semiconductors....Pages 217-232
Transmission Electron Microscopy and Transmission Electron Diffraction Studies of Atomic Ordering in Group III-V Compound Semiconductor Alloys....Pages 233-253
Elastic Relaxation and TEM Image Contrasts in Thin Composition-Modulated Semiconductor Crystals....Pages 255-266
Surface and Thin Film Growth Studied by Reflection High Energy Electron Diffraction....Pages 267-282
Low Energy Electron Microscopy (LEEM) and Photoemission Microscopy (PEEM) of Semiconductor Surfaces....Pages 283-294
Transmission Electron Microscopy of In-Situ Deposited Films on Silicon....Pages 295-304
Surface Studies by SEM and STEM....Pages 305-318
Transmission and Reflection Electron Microscopy on Cleaved Edges of III-V Multilayered Structures....Pages 319-334
Dislocation Generation and Elimination in GaAs on Si....Pages 335-346
The Microstructure of GaAs/Si Films Studies as a Function of Heat Treatment....Pages 347-354
Electron Microscopy of Ge x , Si 1-x /Si Strained Layer Superlattices....Pages 355-367
Defect Structure in Low and High Misfit Systems....Pages 369-380
In-Situ Electron Microscope Studies of Misfit Dislocation Introduction into Ge x Si 1-x /Si Heterostructures....Pages 381-394
Misfit Dislocations in In x Ga 1-x As/GaAs Heterostructures near the Critical Thickness....Pages 395-402
Summary of Discussion on Instrumental Requirements for the Evaluation of Advanced Semiconductor Materials by Electron Microscopy....Pages 403-407
Back Matter....Pages 409-412

✦ Subjects

Biomedicine general

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