Electron temperature and density profile measurements during ion cyclotron resonance heating of hanbit magnetic mirror device

被引:7
|
作者
Lee, SG [1 ]
Bak, JG
Jeon, SJ
Kim, SS
Na, HK
Chung, CW
机构
[1] Korea Basic Sci Inst, Taejon 305333, South Korea
[2] Hanyang Univ, Div Elect & Comp Engn, Seongdong Gu, Seoul 133791, South Korea
来源
FUSION SCIENCE AND TECHNOLOGY | 2003年 / 43卷 / 1T期
关键词
D O I
10.13182/FST03-A11963604
中图分类号
TL [原子能技术]; O571 [原子核物理学];
学科分类号
0827 ; 082701 ;
摘要
The electron density and temperature profiles were measured in the central cell of Hanbit magnetic mirror device. The measured data were obtained during radio frequency (RF) discharges with frequencies of 3.5 and 3.75 MHz, and the RF heating power up to 200 kW under various experimental conditions. The radial electron density and temperature profiles were directly measured by a fast injection probe (FIP), and the axial and azimuthal ion saturation currents were measured from fixed array probes. The line integrated electron density was measured from a single channel interferometer and used as a reference signal for the FIR The electron temperature measurements were carried out different diagnostic methods and compared with each other.
引用
收藏
页码:248 / 252
页数:5
相关论文
共 50 条
  • [21] ELECTRON CYCLOTRON RESONANCE HEATING EXPERIMENT IN THE GDT MAGNETIC MIRROR: RECENT EXPERIMENTS AND FUTURE PLANS
    Bagryansky, P. A.
    Gospodchikov, E. D.
    Kovalenko, Yu. V.
    Lizunov, A. A.
    Maximov, V. V.
    Murakhtin, S. V.
    Pinzhenin, E. I.
    Prikhodko, V. V.
    Savkin, V. Ya.
    Shalashov, A. G.
    Soldatkina, E. I.
    Solomakhin, A. L.
    Yakovlev, D. V.
    FUSION SCIENCE AND TECHNOLOGY, 2015, 68 (01) : 87 - 91
  • [22] STOCHASTIC ELECTRON-CYCLOTRON HEATING OF PLASMA IN A MAGNETIC MIRROR
    LICHTENB.AJ
    SCHWARTZ, MJ
    TUMA, DT
    BULLETIN OF THE AMERICAN PHYSICAL SOCIETY, 1968, 13 (11): : 1508 - &
  • [23] STOCHASTIC MODEL OF ELECTRON-CYCLOTRON HEATING IN A MAGNETIC MIRROR
    KAWAMURA, T
    MOMOTA, H
    NAMBA, C
    TERASHIM.Y
    NUCLEAR FUSION, 1971, 11 (04) : 339 - &
  • [24] A MODELING SCHEME FOR THE DIRECT ELECTRON HEATING PROFILES DURING ION-CYCLOTRON RESONANCE HEATING
    HELLSTEN, T
    ERIKSSON, LG
    NUCLEAR FUSION, 1989, 29 (12) : 2165 - 2173
  • [25] RF Heating in Electron Cyclotron Resonance Ion Sources
    Mascali, D.
    Gammino, S.
    Celona, L.
    Ciavola, G.
    RADIO FREQUENCY POWER IN PLASMAS: PROCEEDINGS OF THE 19TH TOPICAL CONFERENCE, 2011, 1406
  • [26] ION CYCLOTRON RESONANCE HEATING IN AN INHOMOGENEOUS MAGNETIC FIELD
    SINCLAIR, RM
    ROTHMAN, MA
    HOSEA, JC
    BULLETIN OF THE AMERICAN PHYSICAL SOCIETY, 1968, 13 (06): : 870 - &
  • [27] Measurements of the presheath in an electron cyclotron resonance etching device
    Meyer, J. A.
    Kim, G-H
    Goeckner, M. J.
    Hershkowitz, N.
    PLASMA SOURCES SCIENCE & TECHNOLOGY, 1992, 1 (03): : 147 - 150
  • [28] Ion current density and ion energy distributions at the electron cyclotron resonance position in the electron cyclotron resonance plasma
    Samukawa, Seiji, 1600, (30):
  • [29] Electron cyclotron resonance heating by magnetic filter field in a negative hydrogen ion source
    Kim, June Young
    Cho, Won-Hwi
    Dang, Jeong-Jeung
    Chung, Kyoung-Jae
    Hwang, Y. S.
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2016, 87 (02):
  • [30] Spatially resolved measurements of electron cyclotron resonance ion source beam profile characteristics
    Panitzsch, Lauri
    Stalder, Michael
    Wimmer-Schweingruber, Robert F.
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2011, 82 (03):
12345