The transport of runaway electrons in a high-temperature plasma is relatively easy to measure in a steady state experiment and a perturbation experiment, which provides runaway electron diffusion coefficient Dr. This ...The transport of runaway electrons in a high-temperature plasma is relatively easy to measure in a steady state experiment and a perturbation experiment, which provides runaway electron diffusion coefficient Dr. This diffusion coefficient is determined by internal magnetic fluctuations, so it can be interpreted in terms of a magnetic fluctuation level. The internal magnetic fluctuation level (b^-r/BT) is estimated to be about (2-4)×^-4 in the HL-1M plasma. The results presented here demonstrate the effectiveness of using runaway electron transport techniques to determine internal magnetic fluctuations. A profile of magnetic fluctuation level in the HL-1M plasma can be estimated from Dr.展开更多
The transport of runaway electrons in a hot plasma can be comparatively easily measured in steady state or perturbation experiments, which provide runaway electron diffusivity Dr. The diffusivity can be interpreted in...The transport of runaway electrons in a hot plasma can be comparatively easily measured in steady state or perturbation experiments, which provide runaway electron diffusivity Dr. The diffusivity can be interpreted in terms of the magnetic fluctuation level. The runaway electron diffusion coefficient is determined by internal magnetic fluctuations. The internal magnetic fluctuations level (r/BT) is estimated to be about (2~4) ×10-4 in the HL-1M plasma. The results demonstrate the effectiveness of using runaway transport techniques for determining internal magnetic fluctuations. A profile of the magnetic fluctuation level in the HL-1M tokamak can be estimated from Dr.展开更多
基金Project supported by the Nuclear Industry Science Foundation of China (Grant No 19675013).
文摘The transport of runaway electrons in a high-temperature plasma is relatively easy to measure in a steady state experiment and a perturbation experiment, which provides runaway electron diffusion coefficient Dr. This diffusion coefficient is determined by internal magnetic fluctuations, so it can be interpreted in terms of a magnetic fluctuation level. The internal magnetic fluctuation level (b^-r/BT) is estimated to be about (2-4)×^-4 in the HL-1M plasma. The results presented here demonstrate the effectiveness of using runaway electron transport techniques to determine internal magnetic fluctuations. A profile of magnetic fluctuation level in the HL-1M plasma can be estimated from Dr.
文摘The transport of runaway electrons in a hot plasma can be comparatively easily measured in steady state or perturbation experiments, which provide runaway electron diffusivity Dr. The diffusivity can be interpreted in terms of the magnetic fluctuation level. The runaway electron diffusion coefficient is determined by internal magnetic fluctuations. The internal magnetic fluctuations level (r/BT) is estimated to be about (2~4) ×10-4 in the HL-1M plasma. The results demonstrate the effectiveness of using runaway transport techniques for determining internal magnetic fluctuations. A profile of the magnetic fluctuation level in the HL-1M tokamak can be estimated from Dr.