Title :
Diamond-based sub millimeter backward wave oscillator
Author :
Dayton, James A., Jr. ; Mearini, G.T. ; Kory, Carol L.
Author_Institution :
GENVAC Aerosp. Corp., Cleveland, OH, USA
Abstract :
Summary form only given. The diamond-based backward wave oscillator (BWO) provides a miniature, energy efficient, electronically tunable and mass producible signal source in the sub-mm wavelength regime. Fabricated within a shell of chemically vapor deposited (CVD) diamond for mechanical and thermal robustness, the BWO employs a novel biplanar interdigital slow wave circuit. The electron source for the BWO is a Spindt type field emission cathode. The device has been modeled extensively, and preliminary designs of the slow wave circuit, electron gun and collector for operation at 300 and 600 GHz have been completed. Fabrication of the 300 GHz device is in progress.
Keywords :
backward wave oscillators; chemical vapour deposition; circuit tuning; diamond; electron guns; elemental semiconductors; slow wave structures; submillimetre wave generation; submillimetre wave oscillators; thermionic cathodes; 300 GHz; 600 GHz; C; CVD; Spindt type field emission cathode; biplanar interdigital slow wave circuit; chemically vapor deposited diamond; diamond-based BWO; electron collector; electron gun; electron source; electronically tunable signal source; mass producible sub-mm source; sub-millimeter backward wave oscillator; Aerospace electronics; Bandwidth; Circuits; Electrons; Fabrication; Frequency; Liquid crystal devices; Millimeter wave devices; NASA; Oscillators;
Conference_Titel :
Vacuum Electronics Conference, 2004. IVEC 2004. Fifth IEEE International
Print_ISBN :
0-7803-8261-7
DOI :
10.1109/IVELEC.2004.1316203
