Progress in compound semiconductor materials -- electronic and optoelectronic applications

Recent developments in semiconductor materials and quantum structures are leading to significant advances in optoelectronic devices such as mid-infrared lasers and light-emitting diodes; long-wavelength detectors and solar cells; and modulators and optical switches. This book highlights the progress in both naturally- and artificially-structured 'wave-function-engineered' semiconductors, focusing on epitaxial compound-semiconductor compounds and alloys. The relationships among electronic, optical, and transport properties are emphasized, as are the implications for design and performance. Materials of particular interest include the familiar III-V compounds and alloys; newer offspring of these, such as the dilute-nitride III-Vs; ZnO and II-IV semiconductors; and spintronic materials. Exploratory studies of less commonly studied materials which may be of increasing future interest are also featured. Topics include: low bandgap and dilute-nitride semiconductors; growth, structure and defects; emitters, detectors and solar cells; devices; zinc oxide; spintronics and quantum structures; quantum dots and wires-structure, spectroscopy and transport and quantum dots and wires-devices.

Central to bandgap engineering, or more precisely, 'wave-function engineering,' is the concept that, by spatially varying the composition and doping of semiconductors over distances ranging from a few micrometers down to one monolayer, one can tailor the electronic band structure in a nearly arbitrary and continuous way using epitaxial growth techniques. The objective of this book is to review the progress on interband and intersubband transitions in semiconductors including III-V, IV and II-VI materials and quantum structures, as well as to cover the progress on light sources, detectors, modulators and electronic materials and devices. This book brings together internationally recognized researchers to report on their most recent results and newly gained insights and to provide an up-to-date snapshot of optoelectronics and related fields in 2004/2005. The book covers a wide range of topics spanning opto- and microelectronic materials, growth and synthesis, devices, experimental techniques, modeling tools, and applications. Wavelength ranges span from the UV to the THz, and into the GHz modulation range.