Development of High Power Gyrotron and Power Modulation Technique using the JT-60U ECRF System

KOBAYASHI Takayuki, TERAKADO Masayuki, SATO Fumiaki, YOKOKURA Kenji, SHIMONO Mitsugu, HASEGAWA Koichi, SAWAHATA Masayuki, SUZUKI Sadaaki, HIRANAI Shinichi, IGARASHI Koichi, WADA Kenji, SUZUKI Takashi, KAJIWARA Ken, KASUGAI Atsushi, SAKAMOTO Keishi, ISAYAMA Akihiko, MATSUNAGA Go, MORIYAMA Shinichi

doi:10.1585/pfr.4.037

Electron cyclotron range of frequency system of the JT-60U finished operation at the end of August 2008, and improvements toward JT-60SA have been started. In the last two years stable gyrotron oscillation at an output power of 1.5 MW for 1 s was demonstrated, for the first time, using the 110 GHz gyrotron. It was verified that the heat load on the cavity was at an acceptable level with continuous oscillations at 1.5 MW. The absorption power of the collector was also at an acceptable level for the longer pulse oscillation of 5 s. A power modulation technique based on anode voltage modulation was also developed in order to study the effects of modulated Electron Cyclotron Current Drive (ECCD) on Neoclassical Tearing Mode (NTM) stabilization. Modulation frequencies of up to 7 kHz were achieved at output power of 0.8 MW exceeding the previous limit of 3 kHz. Modulated ECCD experiments in synchronization with the NTM were successfully performed with a modulation frequency of around 5 kHz. Development of an accurate synchronization system played an essential role in the experiments that needed a maintained phase between the magnetic probe signal and modulated ECCD in real time. The results provide significant information for further developments that will enhance the overall performance of ECRF systems in the near future.

Development of High Power Gyrotron and Power Modulation Technique using the JT-60U ECRF System

Search this article

Description

Journal

Citations (3)*help

References(9)*help

Keywords

Details 詳細情報について

Export

Report a problem