CdTe-based Light-Controllable Frequency-Selective Photonic Crystal Switch for Millimeter Waves

Abstract

Frequency-selective mm-wave photonic-crystal (PC) beam switches of increased sensitivity for rapid turning off and on quasi-optical beams in response to light pulses as control signals have been designed, manufactured and experimentally tested. Light-controllable PC-enhanced devices using semiconductor wafers (semi-insulating GaAs and Si layers or CdTe-coated quartz plates) with special surface patterning will provide additional functionality for mm-wave beam processing, with sensitivity improved, according to simulations, by 2 to 4 orders of magnitude as compared to a single-wafer device. Experimental testing of light sensitivity of different kinds of PC structures when using a flash lamp as a light source proved a possibility of making mmwave PC devices capable of switching quasi-optical beams with available inexpensive light sources. Quartz-air PCs with a Si wafer insertion have shown extreme sensitivity due to slow electron-hole recombination (tR~50 s) and thick photoconductive layer in silicon (L=0.3mm) that allows one to completely turn off the transmission peak at f = 92.5 GHz by the light pulse of intensity I ~ 0.4 W/cm2 (the PC transmission peak is reduced by 30 dB in response to the light whereas a single Si wafer transmission drops only by 4 dB). Similar kinds of PCs using CdTe-coated quartz wafer insertions, likewise GaAs wafers, are less sensitive to the light due to small recombination length (L ~ 3 micro meters in CdTe and GaAs. Yet, a flash lamp illumination proved to be sufficient for observing a reduction of transmission peak of PC.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2011

Accession Number

ADA550473

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