Title :
Gyrotropic waveguide switching elements at optical wavelengths
Author_Institution :
University of Glasgow, Department of Electronics and Electrical Engineering, Glasgow, UK
Abstract :
Principles of switching elements that use the variation of propagation properties of gyrotropic waveguides caused by changes in the orientation of the applied d.c. field are outlined. It is shown that packing densities comparable with magnetic-bubble devices (25 ¿m per cell) are readily obtainable and that applied magnetic fields and associated d.c. currents can be quite small, giving rise to minimal heat dissipation. Switching speeds in the nanosecond range are expected.
Keywords :
integrated optics; magneto-optical devices; optical modulation; optical waveguide components; switching; 25 micron packing densities; DC magnetic fields; gyrotropic waveguide switching; integrated optics; magnetooptical devices; ns switching times; optical waveguide components;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19790079
