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This volume is a collection of 96 papers presented at the above Conference. The scope of the work includes optical and electrical methods as well as techniques for structural and compositional characterization. The contributed papers report on topics such as X-ray diffraction, TEM, depth profiling, photoluminescence, Raman scattering and various electrical methods. Of particular interest are combinations of different techniques providing complementary information. The compound semiconductors reviewed belong mainly to the III-V and III-VI families. The papers in this volume will provide a useful reference on the implications of new technologies in the characterization of compound semiconductors.
Compound semiconductors such as Gallium Arsenide, Gallium Aluminum Arsenide, and Indium Phosphide are often difficult to characterize and present a variety of challenges from substrate preparation, to epitaxial growth to dielectric film deposition to dopant introduction. This book reviews the common classes of compound semiconductors, their physical, optical and electrical properties and the various types of methods used for characterizing them when analyzing for defects and application problems. The book features: -- Characterization of III-V Thin Films for Electronic and Optical applications -- Characterization of Dielectric Insulating Film layers -- A Special case study on Deep Level Transient Spectroscopy on GaAs -- Concise summaries of major characterization technologies for compound semiconductor materials, including Auger Electron Spectroscopy, Ballistic Electron Emission Microscopy, Energy-Dispersive X-Ray Spectroscopy, Neutron Activation Analysis and Raman Spectroscopy
There is a growing awareness that the successful implementation of novel material systems and technology steps in the fabrication of microelectronic and optoelectronic devices, is critically dependent on the understanding and control of the materials, the process steps and their interactions. The contributions in this volume demonstrate that characterisation and analysis techniques are an essential support mechanism for research in these fields. Current major research themes are reviewed both in the development and application of diagnostic techniques for advanced materials analysis and fabrication process control. Two distinct trends are elucidated: the emergence and evaluation of sophisticated in situ optical diagnostic techniques such as photoreflectance and spectroellipsometry and the industrial application of ultra-high sensitivity chemical analysis techniques for contamination monitoring. The volume will serve as a useful and timely overview of this increasingly important field.
This book is concerned with compound semiconductor bulk materials and has been written for students, researchers and engineers in material science and device fabrication. It offers them the elementary and intermediate knowledge of compound semiconductor bulk materials necessary for entering this field. In the first part, the book describes the physical properties, crystal growth technologies, principles of crystal growth, various defects in crystals, characterization techniques and applications. In the second and the third parts, the book reviews various compound semiconductor materials, including important industrial materials and the results of recent research.
As we delve more deeply into the physics and chemistry of functional materials and processes, we are inexorably driven to the nanoscale. And nowhere is the development of instrumentation and associated techniques more important to scientific progress than in the area of nanoscience. The dramatic expansion of efforts to peer into nanoscale materials and processes has made it critical to capture and summarize the cutting-edge instrumentation and techniques that have become indispensable for scientific investigation in this arena. This Handbook is a key resource developed for scientists, engineers and advanced graduate students in which eminent scientists present the forefront of instrumentation and techniques for the study of structural, optical and electronic properties of semiconductor nanostructures.
The book describes the fundamentals, latest developments and use of key experimental techniques for semiconductor research. It explains the application potential of various analytical methods and discusses the opportunities to apply particular analytical techniques to study novel semiconductor compounds, such as dilute nitride alloys. The emphasis is on the technique rather than on the particular system studied.
This work discusses techniques for developing new engineering materials such as elastomers, plastic blends, composites, ceramics and high-temperature alloys. Instrumentation for evaluating their properties and identifying potential end uses are presented.;The book is intended for materials, manufacturing, mechanical, chemical and metallurgical engi