Title :
A high gain photonic band gap gyrotron amplifier
Author :
Nanni, Emilio A. ; Lewis, S.M. ; Shapiro, Michael A. ; Temkin, Richard J.
Author_Institution :
Plasma Sci. & Fusion Center, Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
A gyrotron amplifier that uses a novel photonic band gap (PBG) interaction circuit has achieved a peak small signal gain of 38 dB at 247.7 GHz, 32 kV and 0.35 A. The instantaneous -3 dB bandwidth of the amplifier at peak gain is 0.4 GHz. A peak output power of 45 W has been measured. The output power is not saturated but is limited by the 7.5 mW of available input power; the saturated output power is believed to be of order 500W. The PBG interaction circuit that confines the TE03-like mode for operation and provides stability from oscillations in lower order modes. The amplifier can be tuned for operation from 245-255 GHz. Experimental results taken over a wide range of parameters, 15-30 kV and 0.25-0.5 A, show good agreement with a theoretical model that incorporates cold test measurements for the transmission line, input coupler, PBG waveguide and mode converter.
Keywords :
gyrotrons; high-frequency transmission lines; integrated optics; millimetre wave amplifiers; millimetre wave couplers; PBG interaction circuit; PBG mode converter; PBG waveguide; current 0.25 A to 0.5 A; current 0.35 A; frequency 0.4 GHz; frequency 245 GHz to 255 GHz; gain 38 dB; high gain photonic band gap gyrotron amplifier; input coupler; lower order modes; photonic band gap interaction circuit; power 45 W; power 500 W; power 7.5 mW; transmission line; voltage 15 kV to 30 kV; voltage 32 kV; Bandwidth; Couplers; Gain; Gyrotrons; Power amplifiers; Power generation; Transmission line measurements; DNP NMR; THz; gyro-TWT; gyrotron; gyrotron amplifier; photonic band gap;
Conference_Titel :
Vacuum Electronics Conference (IVEC), 2013 IEEE 14th International
Conference_Location :
Paris
Print_ISBN :
978-1-4673-5976-4
DOI :
10.1109/IVEC.2013.6571109
