Title :
Microfabricated Silicon High-Frequency Waveguide Couplers and Antennas
Author :
Marconnet, Amy M. ; He, Mike M. ; Sengele, Sean ; Ho, Sung-Jin ; Jiang, Hongrui ; Ferrier, Nicola J. ; Van der Weide, Daniel W. ; Madhavan, Vidhya ; Nelson, Natalie ; Booske, John H.
Author_Institution :
Stanford Univ., Stanford, CA
fDate :
5/1/2009 12:00:00 AM
Abstract :
A method has been developed to fabricate waveguide-to-waveguide couplers and tapered dielectric rod antennas for the millimeter-wave regime from microetched silicon. A proof-of-concept study shows that the structures can be realized using relatively simple wet etching and robotic process control. Experimental measurements of the waveguide-waveguide couplers agree in key features with simulations. The results indicate that two-stepped tapers perform nearly as well as smooth linear tapers, but are much easier to fabricate. Coupling transmissivity of better than -1 dB, and peak antenna gain of 8-10 dB are indicated at W-band frequencies. Lateral dimension etch control of 5-mum precision was realized. To solve a challenge of controlling the length of the first step, either an improved masking method or a switch to dry etching processes is required.
Keywords :
dielectric waveguides; etching; millimetre wave antennas; waveguide couplers; W-band; coupling transmissivity; lateral dimension etch control; millimeter-wave antennas; robotic process control; tapered dielectric rod antennas; waveguide couplers; wet etching; Antenna measurements; Couplers; Dielectrics; Millimeter wave measurements; Millimeter wave technology; Process control; Robots; Silicon; Switches; Wet etching; Dielectric rod antenna; dielectric waveguide; millimeter-wave; terahertz (THz);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2009.2015415
