Title :
Polymeric optical waveguide switch using the thermooptic effect
Author :
Diemeer, M.B.J. ; Brons, J.J. ; Trommel, E.S.
Author_Institution :
PTT Dr. Neher Lab., Leidschendam, Netherlands
fDate :
3/1/1989 12:00:00 AM
Abstract :
An all-polymeric optical waveguide switch which uses total internal reflection from a thermally induced index barrier is discussed. Very large effective index changes Delta N=2*10/sup -2/ were found in the polymeric waveguide. The temperature under the evaporated stripe heater was measured from the change in its resistance. The effective index change due to the temperature increase agrees well with values calculated from the deflection angles. The operation of the switch is, apart from a small waveguide dispersion effect, polarization-insensitive. Switching times of about 10 ms were measured. It should be possible to reduce them to a few milliseconds in optimized thermal designs and with regulated power dissipation in the heater.<>
Keywords :
optical switches; optical waveguides; polymers; thermo-optical effects; 10 ms; all-polymeric optical waveguide switch; effective index changes; evaporated stripe heater; thermally induced index barrier; total internal reflection; Dispersion; Electrical resistance measurement; Optical polymers; Optical reflection; Optical switches; Optical waveguides; Resistance heating; Temperature; Thermooptic effects; Waveguide transitions;
Journal_Title :
Lightwave Technology, Journal of
