Title :
Operation of high power 84-GHz gyrotron for KSTAR ECH system
Author :
Bae, Y.S. ; Lee, H.K. ; Jeong, J.H. ; Namkung, W. ; Cho, M.H. ; Chu, S.
Author_Institution :
Pohang Univ. of Sci. & Technol., South Korea
Abstract :
The initial objective of the KSTAR ECH system is to produce seed plasmas by irradiation of powerful millimeter waves for the main ohmic discharges. A specially designed gyrotron, manufactured by CPI, has specifications of 500 kW, 84 GHz, and 2- second pulse duration. It adopts the state-of-arts technologies of a diode gun, a depressed potential collector, an internal mode converter, and a diamond window. As a part of the final acceptance tests of the gyrotron, we constructed a test and including a test modulator to confirm its operating conditions. With short-pulses of 20 microseconds, we produced the output peak power of 500 kW at 84 GHz. The output power distribution is confirmed to be a Gaussian by IR images on targets. In this experimental study, we describe details of the gyrotron, the test stand, and experimental results.
Keywords :
Tokamak devices; cyclotrons; gyrotrons; infrared imaging; millimetre waves; plasma ohmic heating; plasma radiofrequency heating; 20 ms; 500 kW; 84 GHz; IR images; Korea superconducting Tokamak advanced reactor; depressed potential collector; diamond window; diode gun; electron cyclotron heating; high power gyrotron; internal mode converter; millimeter waves; ohmic discharges; Diodes; Gyrotrons; Manufacturing; Millimeter wave technology; Nuclear and plasma sciences; Plasma materials processing; Plasma waves; Radio frequency; Sun; Testing;
Conference_Titel :
Vacuum Electronics, 2003 4th IEEE International Conference on
Print_ISBN :
0-7803-7699-4
DOI :
10.1109/IVEC.2003.1286025
