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Progress on performance tests of ITER gyrotrons and design of dual-frequency gyrotrons for ITER staged operation plan

Ryosuke Ikeda, K. Kajiwara, Taku Nakai, Takeru Ohgo, S. Yajima, Takahiro Shinya, Takayuki Kobayashi, Koji Takahashi, S. Moriyama, Taku Eguchi, Yoshika Mitsunaka, Yasuhisa Oda, K. Sakamoto

2021Nuclear Fusion24 citationsDOIOpen Access PDF

Abstract

This paper presents the progress of performance tests of ITER gyrotrons developed at QST and the design of dual-frequency (170 GHz and 104 GHz) gyrotrons to enhance various operation scenarios in ITER, such as characteristics studies of H-mode/ELM at low magnetic fields. The major achievements in developing the ITER gyrotrons are as follows: (i) manufacturing of eight ITER gyrotrons and their auxiliary components has been completed. Performance tests at QST have been progressing and four of the eight gyrotrons achieved the required test criteria—1 MW/300 s/50%, 5 kHz modulation with > 0.8 MW. Excitation of LP01 mode having a purity of > 95% was also successfully demonstrated using a 50 mm-diameter waveguide transmission line, satisfying the specification. (ii) The design of dual-frequency gyrotrons capable of 1 MW continuous-wave operation, was successfully completed.

Topics & Concepts

GyrotronNuclear engineeringDual modePhysicsContinuous waveMode (computer interface)Computer scienceOpticsNuclear physicsAerospace engineeringEngineeringLaserElectronOperating systemGyrotron and Vacuum Electronics ResearchMicrowave Engineering and WaveguidesParticle accelerators and beam dynamics
Progress on performance tests of ITER gyrotrons and design of dual-frequency gyrotrons for ITER staged operation plan | Litcius