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The fabrication of Si- and compound semiconductor-based devices involves a number of steps ranging from material growth to pattern definition by lithography, and ultimately, pattern transfer by etching/deposition. The key to device manufacturing, however, is reproducibility, low cost and high yield. Diagnostic techniques allow correlation between processing and actual device performance to be established. Researchers from universities, industry and government come together in this book to examine the advances in diagnostic techniques that provide critical information on structural, optical and electrical properties of semiconductor devices, as well as monitoring techniques for equipment/processes for control and feedback. The overriding goal is for rapid, accurate materials characterization, both in situ and ex situ. Topics include: in situ diagnostics; proximal probe microscopies; optical probes of devices and device properties; spectroscopic ellipsometry/structural diagnostics; and material analysis - X-ray techniques, strain measurements and passivation.
Diagnostic characterization techniques for semiconductor materials, devices and device processing are addressed at this symposium. It will cover new techniques as well as advances in routine analytical technology applied to semiconductor process development and manufacture. The hardcover edition includes a CD-ROM of ECS Transactions, Volume 10, Issue 1, Analytical Techniques for Semiconductor Materials and Process Characterization 5 (ALTECH 2007). The PDF edition also includes the ALTECH 2007 papers.
.".. ALTECH 2003 was Symposium J1 held at the 203rd Meeting of the Electrochemical Society in Paris, France from April 27 to May 2, 2003 ... Symposium M1, Diagnostic Techniques for Semiconductor Materials and Devices, was part of the 202nd Meeting of the Electrochemical Society held in Salt Lake City, Utah, from October 21 to 25, 2002 ..."--p. iii.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
MRS books on materials reliability in microelectronics have become the snapshot of progress in this field. Reduced feature size, increased speed, and larger area are all factors contributing to the continual performance and functionality improvements in integrated circuit technology. These same factors place demands on the reliability of the individual components that make up the IC. Achieving increased reliability requires an improved understanding of both thin-film and patterned-feature materials properties and their degradation mechanisms, how materials and processes used to fabricate ICs interact, and how they may be tailored to enable reliability improvements. This book focuses on the physics and materials science of microelectronics reliability problems rather than the traditional statistical, accelerated electrical testing aspects. Studies are grouped into three large sections covering electromigration, gate oxide reliability and mechanical stress behavior. Topics include: historical summary; reliability issues for Cu metallization; characterization of electromigration phenomena; modelling; microstructural evolution and influences; oxide and device reliability; thin oxynitride dielectrics; noncontact diagnostics; stress effects in thin films and interconnects and microbeam X-ray techniques for stress measurements.
While the effects of spontaneous ordering or composition modulation on the properties of semiconductors and optoelectronic devices have been studied with great interest over the past several years, an understanding of the physics and chemistry of these two related phenomena is still in its infancy. This book brings together researchers from around the world to address issues concerning the physics, chemistry and growth parameters for spontaneous ordering and composition modulation. Developments in the use of artificial patterning to obtain new structured materials on a microscopic scale are featured. Advances in characterization techniques are also presented. Topics include: spontaneous ordering; self-assembled structures and quantum dots; self-organized epitaxial structures; composition modulation studies and optoelectronic materials.
III-V semiconductors have continued to find new applications in optical data transmission, full-color displays, automotive electronics and personal communication systems. Complex epitaxial growth, processing, device design and circuit architecture are all necessary for realization of these elements. This book brings together the diverse group of scientists and researchers that are required to develop the next-generation devices. The wide bandgap nitrides, GaN, AlN, InN and their alloys are featured. The commercial availability of blue- and green-light-emitting diodes based on the InGaN/AlGaN system, and the recent announcement of pulsed operation of a laser diode, have stimulated interest in the growth, characterization and processing of these materials. Potential applications in high-temperature/high-power electronics appear promising because of the good transport properties of these nitrides. Topics include: growth and characterization; photonics and processing; electronics and processing; wide bandgap semiconductors and novel devices and processing.