Title :
First mm-wave generation in the FOM free electron maser
Author :
Verhoeven, Toon G A ; Bongers, Waldo A. ; Bratman, Vladimir L. ; Caplan, Malcolm ; Denisov, Gregory G. ; Van der Geer, Cees A J ; Manintveld, Piet ; Poelman, Alex J. ; Plomp, Jeroen ; Savilov, Andrej V. ; Smeets, Paul H M ; Sterk, Ab B. ; Urbanus, Wim H.
Author_Institution :
FOM Inst. for Plasma Phys., Nieuwegein, Netherlands
fDate :
8/1/1999 12:00:00 AM
Abstract :
A free electron maser (FEM) has been built as a pilot mm-wave source for applications on future fusion research devices such as the International Tokamak Experimental Reactor (ITER). A unique feature of the Dutch FEM is the possibility to tune the frequency over the entire range from 130 to 260 GHz at an output power exceeding one MW. In the first phase of the project, the so-called inverse setup is used, where the electron gun is mounted inside the high-voltage terminal. The entire beam line was tested successfully with an extremely low loss current, lower than 0.05%. The first generation of mm waves was achieved in October 1997. Up to now a peak power exceeding 730 kW was measured at 200 GHz and 350 kW at 167 GHz. Output power, start-up time and frequency correspond well with simulation results. Parameter scans for the longitudinal undulator gap, accelerator voltage, and reflection coefficient have given a wide range of interesting data of which a few highlights are given
Keywords :
Tokamak devices; free electron lasers; fusion reactor instrumentation; laser beams; laser tuning; masers; millimetre wave generation; millimetre wave lasers; wigglers; 1 MW; 130 to 260 GHz; 167 GHz; 200 GHz; 350 kW; 730 kW; Dutch FEM; FOM free electron maser; ITER; International Tokamak Experimental Reactor; October 1997; accelerator voltage; beam line; electron gun; extremely low loss current; free electron maser; frequency; future fusion research devices; high-voltage terminal; inverse setup; longitudinal undulator gap; mm waves; mm-wave generation; mm-wave source; output power; parameter scan; peak power; reflection coefficient; simulation result; start-up time; tuning; Electrons; Frequency; Fusion power generation; Inductors; Masers; Power generation; Power measurement; Testing; Tokamaks; Undulators;
Journal_Title :
Plasma Science, IEEE Transactions on
