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Science & Culture
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Rare-Earth Doped Semiconductors II: Volume 422
Rare-earth doped semiconductors hold great potential for a variety of optoelectronic applications, including lasers, LEDs and optical amplifiers. In fact, the field has grown rapidly over the past several years, with a clear switch in direction. The first book by this name was devoted to rare-earth doped II-VI and III-V semiconductors; more than half of the papers in this new volume are devoted to rare-earth doped silicon. This indicates that rare-earth doping of silicon is now seriously considered as a means to achieve silicon-based optoelectronic devices. In addition, new reports on rare-earth doped III-nitrides are also presented. Researchers from 14 countries come together in the volume to discuss current trends, highlight new developments and identify potential electronic and optoelectronic applications. Topics include: incorporation methods and properties; structural, electrical and optical properties; excitation mechanisms and electroluminescence and integration.
Non-stoichiometry in Semiconductors
Significant advances have occurred in the theory of non-stoichiometry problems and fundamentally new and wide-ranging applications have been developed, helping to better identify relevant issues. The contributions in this volume bring together the experience of specialists from different disciplines (materials scientists, physicists, chemists and device people) confronted with non-stoichiometry problems. The 40 papers, including 9 invited papers, give an advanced scenario of this wide interdisciplinary area, which is highly important in its diverse aspects of theory, implementation and applications. This work will be of interest not only to universities and laboratories engaged in studies and research in this field, but also to organizations and industrial centres concerned with implementations and applications. The diversity of the topics, as well as the extraordinary tempo in which Non-stoichiometry in Semiconductors has progressed in recent years attest to the permanent vitality of this field of research and development.
