Avalanche Phenomenon of Runaway Electrons During Additional Fueling
YANG Jin-Wei, CAO Jian-Yong, ZENG Qing-Xi, ZHANG Wei, TANG Nian-Yi, DONG Jia-Fu, DENG Zhong-Chao, XIAO Zheng-Gui, YAO Liang-Hua
Southwestern Institute of Physics, P.O. Box 432, Chengdu 610041
Avalanche Phenomenon of Runaway Electrons During Additional Fueling
YANG Jin-Wei;CAO Jian-Yong;ZENG Qing-Xi;ZHANG Wei;TANG Nian-Yi;DONG Jia-Fu;DENG Zhong-Chao;XIAO Zheng-Gui;YAO Liang-Hua
Southwestern Institute of Physics, P.O. Box 432, Chengdu 610041
关键词 :
52.70.La ,
28.52.Cx ,
52.55.-m
Abstract :During pellet injection and supersonic molecular beam injection, we have observed the increase of electron density and the enhancement of hard x-ray radiation, but the runaway electrons normally decrease without additional fueling when the density of plasma increases. This phenomenon may come from synergetic effects of Dreicer and avalanche runaway electrons. The experimental results are consistent with the calculation based on the theory of avalanche runaway in the HL-1M Tokamak.
Key words :
52.70.La
28.52.Cx
52.55.-m
出版日期: 2002-02-01
引用本文:
YANG Jin-Wei;CAO Jian-Yong;ZENG Qing-Xi;ZHANG Wei;TANG Nian-Yi;DONG Jia-Fu;DENG Zhong-Chao;XIAO Zheng-Gui;YAO Liang-Hua. Avalanche Phenomenon of Runaway Electrons During Additional Fueling[J]. 中国物理快报, 2002, 19(2): 230-232.
链接本文:
https://cpl.iphy.ac.cn/CN/
或
https://cpl.iphy.ac.cn/CN/Y2002/V19/I2/230
[1]
LI Cheng-Yue;DENG Bai-Quan;HUANG Jin-Hua;YAN Jian-Cheng. Tritium Burn-up Depth and Tritium Break-Even Time
[2]
JIANG Shao-En;SUN Ke-Xu; DING Yong-Kun;HUANG Tian-Xuan;CUI Yan-Li;CHEN Jiu-Sen. Radiation Temperature Scaling Law for Gold Hohlraum Heated with Lasers at 0.35mm Wavelength
[3]
XU Rong-Kun;LI Zheng-Hong;NING Jia-Min;GUO Cun;XU Ze-Ping;YANG Jian-Lun;LI Lin-Bo;XIA Guang-Xin;HUA Xin-Sheng;DING Ning;LIU Qiang;GU Yuan-Chao;E. V. Grabovsky;G. M. Oleynic;S. L. Nedoseev;V. V. Alexandrov;K. N.Mitrofanov;M. V. Zurin;G. S. Volkov;I. A. Porofeev;I. N. Frolov;V. P. Smirnov. X-Ray Radiation Characteristics of Nested-Wire Array Implosion in Sino-Russian Joint Z-pinch Experiments on Angara-5-1
[4]
DENG Bai-Quan;PENG Li-Lin;YAN Jian-Cheng;WANG Xiao-Yu. Isotope Effects of Solid Hydrogenic Pellet Ablation
[5]
TAO Ye-Zheng;LI Ye-Jun;TANG Xiu-Zhang;ZHANG Hai-Feng;SHAN Yu-Sheng;WANG Nai-Yan. Generation of Hot Electron at Higher Temperature from Solid
Plasma with a Moderate-Intensity Femtosecond Laser
[6]
SHI Yue-Jiang; WAN Bao-Nian. Energy Resolution Effects on Plasma Electron Temperature Measurements by Soft X-Ray Pulse-Height-Analysis
[7]
LIU Timon Cheng-Yi;GUO Hong;FU Xi-Quan;HU Wei;YU Song. Maxwell-Schrödinger Equation for X-Ray Laser Propagation and
Interferometry Measurement of Plasma Electron Density
[8]
XU Yan;WANG Long;ZHENG Shaobai;QI Xiazhi. Modulated Phase Lag Relations to Determine the Scaling Law of the Electron Thermal Conductivity in Tokamak
2002, Vol. 19 
