Title :
Demonstration of a Multikilowatt, Solenoidally Focused Sheet Beam Amplifier at 94 GHz
Author :
Pasour, John ; Wright, Edward ; Nguyen, Khanh T. ; Balkcum, Adam ; Wood, Franklin N. ; Myers, Robert E. ; Levush, Baruch
Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
A technological breakthrough is embodied in the successful demonstration of an extended interaction klystron (EIK) amplifier, which has produced over 7.5 kW of peak output power at W-band (94 GHz). An efficiency of ~17% has been achieved with a depressed collector. The EIK is driven by a 20-kV, 4-A sheet beam in a permanent magnet solenoid, with 99% beam current transmission from gun to collector. Key features that contribute to the success of this device are: tight beam focusing and correspondingly narrow beam tunnel, which are made possible by the solenoidal focusing and which provide high interaction impedance and high gain per unit length and the incorporation of design elements to stabilize the inherently over-moded circuit. Measured performance agrees well with 3-D particle-in-cell simulations.
Keywords :
circuit stability; klystrons; millimetre wave amplifiers; permanent magnets; solenoids; 3D particle-in-cell simulation; EIK amplifier; current 4 A; depressed collector; extended interaction klystron amplifier; frequency 94 GHz; gun; interaction impedance; multikilowatt solenoidally focused sheet beam amplifier; narrow beam tunnel; over-moded circuit; permanent magnet solenoid; sheet beam current transmission; solenoidal focusing; tight beam focusing; voltage 20 kV; Cavity resonators; Focusing; Gain; Magnetic tunneling; Permanent magnets; Power generation; Resonant frequency; Amplifier; extended interaction klystron (EIK); millimeter wave (MMW); sheet beam; vacuum electronics; vacuum electronics.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2295771
