Author_Institution :
Dept. of Phys. & Astron., Massachusetts Univ., Amherst, MA, USA
Abstract :
The basic theory of quasi-optical Gaussian beam propagation and beam transformation by simple optical elements is summarized, and coupling to and between Gaussian beams is briefly discussed. Guidelines for Gaussian optics system design are reviewed, the most important being beam truncation and matching. Passive components in the terahertz frequency range based on quasi-optical propagation, including polarization processors, filters, diplexers, and ferrite devices, are examined. Some active quasi-optical devices, including multielement oscillators, frequency multipliers, and phase shifters, are described. Some specific applications of quasi-optical systems are briefly described
Keywords :
electromagnetic wave polarisation; ferrite devices; microwave filters; multiplexing equipment; passive filters; radiowave propagation; solid-state microwave circuits; solid-state microwave devices; submillimetre wave devices; Gaussian optics system design; THF; beam transformation; beam truncation; diplexers; ferrite devices; filters; frequency multipliers; multielement oscillators; optical elements; phase shifters; polarization processors; quasi-optical Gaussian beam propagation; quasi-optical devices; quasi-optical propagation; quasi-optical systems; quasi-optical techniques; specific applications; terahertz frequency range; Ferrite devices; Frequency; Guidelines; Optical coupling; Optical filters; Optical polarization; Optical propagation; Passive filters; Submillimeter wave filters; Submillimeter wave propagation;
