Title :
Microfabrication and Characterization of a Selectively Metallized W-Band Meander-Line TWT Circuit
Author :
Sengele, Sean ; Jiang, Hongrui ; Booske, John H. ; Kory, Carol L. ; Van der Weide, Daniel W. ; Ives, R. Lawrence
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Wisconsin-Madison, Madison, WI
fDate :
5/1/2009 12:00:00 AM
Abstract :
Vacuum electronic devices offer significant potential for increased power and performance at millimeter-wave frequencies. However, new approaches are required to reliably manufacture the miniature electromagnetic circuits used at these high frequencies. In this paper, we describe the design, fabrication, and testing of an innovative meander-line slow-wave structure for a W-band traveling-wave tube (TWT). The unique challenge of metallizing only the top of a high-aspect-ratio serpentine dielectric ridge using conventionally planar microfabrication techniques is overcome using a novel selective masking and metallization process. The procedure is demonstrated by fabricating a W-band meander-line circuit for a 10-W continuous-wave TWT. Cold-test S -parameter measurements are presented.
Keywords :
masks; metallisation; microfabrication; millimetre wave tubes; slow wave structures; S-parameter measurements; continuous-wave TWT; high-aspect-ratio serpentine dielectric ridge; meander-line slow-wave structure; metallization; metallized W-band meander-line TWT circuit; microfabrication; millimeter-wave frequencies; miniature electromagnetic circuits; power 10 W; selective masking; traveling-wave tube; vacuum electronic devices; Dielectrics; Electromagnetic coupling; Electromagnetic scattering; Frequency; Metallization; Millimeter wave circuits; Millimeter wave measurements; Millimeter wave radar; Millimeter wave technology; Optical device fabrication; Meander-line; W-band; microfabrication; millimeter-wave (mm-wave); slow-wave structure (SWS); traveling-wave tube (TWT);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2009.2015416
