DocumentCode :
1172536
Title :
Experimental analysis of millimeter wave coplanar waveguide slow wave structures on GaAs
Author :
Spickermann, Ralph ; Dagli, Nadir
Author_Institution :
Dept. of Electr. & Comput. Eng., California Univ., Santa Barbara, CA, USA
Volume :
42
Issue :
10
fYear :
1994
fDate :
10/1/1994 12:00:00 AM
Firstpage :
1918
Lastpage :
1924
Abstract :
Microwave coplanar waveguide slow wave structures suitable for use in traveling wave electrooptic modulators were experimentally investigated to 40 GHz. Velocity slowing is achieved by introducing periodic slots in the ground planes. Structures both on semiinsulating GaAs substrates and on epitaxial layers grown by molecular beam epitaxy on semiinsulating GaAs substrates were examined. In the measurements the thru-reflect-line calibration method was used and its limitations are discussed. The characteristic impedance, phase velocity and loss coefficient of these lines were extracted from measured S-parameters. Effects of various dimensions on these line properties are presented and discussed. Results indicate that significant phase velocity slowing without dispersion at least up to 40 GHz is possible with this approach. This is true both on semi-insulating GaAs substrates and specially designed epitaxial layers. A design approach to achieve a specified phase velocity and characteristic impedance is given
Keywords :
III-V semiconductors; MMIC; S-parameters; electro-optical devices; gallium arsenide; molecular beam epitaxial growth; waveguides; 40 GHz; GaAs; S-parameters; characteristic impedance; ground planes; loss coefficient; millimeter wave coplanar waveguide; molecular beam epitaxy; periodic slots; phase velocity; slow wave structures; thru-reflect-line calibration method; traveling wave electrooptic modulators; velocity slowing; Calibration; Coplanar waveguides; Electrooptic modulators; Electrooptical waveguides; Epitaxial layers; Gallium arsenide; Impedance; Millimeter wave technology; Molecular beam epitaxial growth; Substrates;
fLanguage :
English
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9480
Type :
jour
DOI :
10.1109/22.320774
Filename :
320774
Link To Document :
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