Title :
Design of a CW quasioptical gyrotron for materials processing
Author :
Fischer, R.P. ; Fliflet, Arne W.
Author_Institution :
Div. of Plasma Phys., US Naval Res. Lab., Washington, DC, USA
Abstract :
Summary form only given, as follows. The quasioptical gyrotron (QOG) is under development at the Naval Research Laboratory as a high power source of millimeter-wave radiation. Recent experimental results include the production of up to 150 kW output power with 20% efficiency in 13 /spl mu/sec pulses. A new application of the QOG is in the rapid sintering of high-strength ceramic materials and other heating processes. Millimeter-wave radiation is expected to heat samples much more uniformly and rapidly than conventional furnaces, resulting in improved material properties. The new experiment is designed to produce 5 kW average power from 75-95 GHz using a 20 kV, 1.5 A dc electron beam. The design of the gyrotron will be presented, including the 70 cm quasioptical resonator with asymmetric output coupling, electron trajectory simulations, single and multimode gyrotron simulations, and microwave optics.
Keywords :
gyrotrons; heat treatment; millimetre wave devices; optical resonators; sintering; 1.5 A; 150 kW; 20 kV; 5 kW; 75 to 95 GHz; CW quasioptical gyrotron; asymmetric output coupling; electron beam; electron trajectory simulations; furnaces; heating processes; high power source; high-strength ceramic materials; materials processing; microwave optics; millimeter-wave radiation; multimode gyrotron simulations; quasioptical resonator; rapid sintering; single gyrotron simulations; Ceramics; Furnaces; Gyrotrons; Heating; Laboratories; Material properties; Materials processing; Optical resonators; Power generation; Production;
Conference_Titel :
Plasma Science, 1995. IEEE Conference Record - Abstracts., 1995 IEEE International Conference on
Conference_Location :
Madison, WI, USA
Print_ISBN :
0-7803-2669-5
DOI :
10.1109/PLASMA.1995.531745
