2 Integrated Silicon Photodetectors (new ones since 2003 will be added)
3 Detectors in Thin Crystalline Silicon Films
4 SiGe Photodetectors
5 Design of Integrated Optical Receiver Circuits
6 Examples of Optoelectronic Integrated Circuits ( new ones since 2003 will be added)
7 Circuits for Electronic-Photonic Integration (new)
Prof. Dr. Horst Zimmermann received the diploma in Physics in 1984 from the University of Bayreuth, Germany, and the Dr.-Ing. degree from the University Erlangen-Nürnberg working at the Fraunhofer Institute for Integrated Circuits (IIS-B), Erlangen, Germany in 1991. Then, Dr. Zimmermann was an Alexander-von-Humboldt Research-Fellow at Duke University, Durham, N.C., working on diffusion in Si, GaAs, and InP until 1992. In 1993, he joined the Chair for Semiconductor Electronics at Kiel University, Kiel, Germany, where he lectured optoelectronics and worked on optoelectronic integration in silicon technology. Since 2000 he is full professor for Electronic Circuit Engineering at Technische Universität Wien, Vienna, Austria. His main interests are in design and characterization of analog and nanometer CMOS circuits as well as optoelectronic integrated CMOS and BiCMOS circuits. He is author of the Springer books 'Integrated Silicon Optoelectronics' and 'Silicon Optoelectronic Integrated Circuits' (1st edition) as well as coauthor of “Highly Sensitive Optical Receivers”, “Optical Communication over Plastic Optical Fibers”, “Analog Filters in Nanometer CMOS”, “Comparators in Nanometer CMOS Technology”, and “Optoelectronic Circuits in Nanometer CMOS Technology”. In addition he is author and co-author of more than 500 publications. In 2002 he became Senior Member IEEE. He was primary guest editor of the Nov./Dec. 2014 issue of IEEE J. Selected Topics in Quantum Electronics on Optical Detectors: Technology and Applications
This book reviews various topics in optoelectronics and the design of microelectronic circuits. It introduces readers to the essential features of optical absorption and device physics of photodetectors, as well as their integration in modern CMOS and BiCMOS technologies. This information provides the basis for understanding the underlying mechanisms of Optoelectronic Integrated Circuits (OEICs), which are described in the main part of the book.
In the second edition of this book, new and outstanding integrated high-bandwidth pin photodiodes as well as avalanche photodiodes in the linear mode and in the Geiger mode are introduced. To cover the topic comprehensively, the book presents detailed descriptions of OEICs for a wide range of applications: from various optical sensors, smart sensors, image sensors, 3D-sensors and optical storage systems, to fiber receivers and receivers for optical wireless communication, as well as single-photon detection. This new edition also reflects the latest trends in OEIC research on integrated optical receivers at the quantum limit and electronic-photonic integration, and highlights outstanding 3D-integrated application examples like a multi-node optical switch, an optical transceiver, and a high-resolution 3D sensor.