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A detailed study of the science, engineering and applications of terahertz technology, based on room-temperature solid-state devices, which are seen as the key technology for wider applications in this frequency range. The relative merits of electronic and optical devices are discussed and new device principles identified. Issues of terahertz circuit design, implementation and measurement are complemented by chapters on current and future applications in communications, sensing and remote surveillance.
Audience: The unique coverage of all aspects of terahertz technology will appeal to both new and established workers in the field, as well as providing a survey for the interested reader.Proceedings of the NATO Advanced Research Workshop, Ch?teau de Bonas, Cast?ra-Verduzan, France, June 30-July 11, 1996A detailed study of the science, engineering and applications of terahertz technology, based on room-temperature solid-state devices, which are seen as the key technology for wider applications in this frequency range. The relative merits of electronic and optical devices are discussed and new device principles identified. Issues of terahertz circuit design, implementation and measurement are complemented by chapters on current and future applications in communications, sensing and remote surveillance.
Audience: The unique coverage of all aspects of terahertz technology will appeal to both new and established workers in the field, as well as providing a survey for the interested reader.Preface. Theme 1: Background and Introduction. Introduction to Terahertz Solid-State Devices; J.M. Chamberlain, et al. Microwave Mixers; N.J. Cronin. Fundamentals of Receivers for Terahertz Systems; G. Beaudin, P.J. Encrenaz. Millimetre Wave and Terahertz Waveguides and Measurements; R.D. Pollard. Theme 2: Device Update. Unipolar and Bipolar Resonant Tunneling Components; C. van Hoof, et al. Supel3¬
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