Title :
Demonstration of a High Power, Wideband 220-GHz Traveling Wave Amplifier Fabricated by UV-LIGA
Author :
Joye, Colin D. ; Cook, Alan M. ; Calame, Jeffrey P. ; Abe, David K. ; Vlasov, Alexander N. ; Chernyavskiy, Igor A. ; Nguyen, Khanh T. ; Wright, Edward L. ; Pershing, Dean E. ; Kimura, Tomohiro ; Hyttinen, Mark ; Levush, Baruch
Author_Institution :
U.S. Naval Res. Lab., Washington, DC, USA
Abstract :
We present the first vacuum electronic traveling wave amplifier to incorporate an interaction circuit fabricated by ultraviolet (UV) photolithography and electroforming, demonstrating over 60 W of output power at 214.5 GHz from a 12.1 kV, 118 mA electron beam. The tube also achieved an instantaneous bandwidth of ~15 GHz in G-band in the small signal regime. The all-copper circuit was fabricated in two layers using a UV-transparent polymer monofilament embedded in the photoresist to form the beam tunnel prior to electroforming. Effects arising from fabrication errors and target tolerances are discussed. This microfabrication technique and demonstration paves the way for a new era of vacuum electron devices that could extend into the 1-2 THz range with advances in high-current-density electron guns.
Keywords :
LIGA; microfabrication; millimetre wave power amplifiers; photoresists; polymers; travelling wave amplifiers; wideband amplifiers; UV-LIGA; UV-transparent polymer monofilament; all-copper circuit; current 118 mA; electroforming; electron beam tunnel; frequency 1 THz to 2 THz; frequency 214.5 GHz; frequency 220 GHz; high power wideband traveling wave amplifier; high-current-density electron gun; interaction circuit fabrication; microfabrication technique; photoresist; ultraviolet photolithography; vacuum electron device; vacuum electronic traveling wave amplifier; voltage 12.1 kV; Bandwidth; Copper; Electron beams; Gain; Integrated circuit modeling; Loss measurement; Power generation; Electron tubes; lithography; millimeter wave amplifiers; millimeter wave tubes; traveling wave tubes (TWTs); traveling wave tubes (TWTs).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2300014
