Experimental study on fast electron generation during internal crash

Abstract: Hard x-ray (HXR) burst is found during internal crash in the flat top current stage of experimental advanced superconducting tokamak (EAST) discharges and it is caused by fast electrons. The generated electrons during internal crashes may be an operational safety issue in advanced tokamaks. During an internal crash, locations of fast electron generation from HXR evolution agree with areas of magnetic reconnection from soft x-ray (SXR) tomographic reconstruction. Further statistical analyses show a 27 μs time d… Show more

“…2015; Mai et al. 2021). To illustrate that it is conceivable to get significant reverse runaway beams in disruptions with an intact edge region, we return again to the alternative scenario detailed in Appendix A, but now, unlike in the case studied in figure 2, with an intact edge region outside .…”

“…2015; Mai et al. 2021), such as large sawteeth. However, we are not aware of any clear observation of a significant reverse runaway electron beam.…”

Runaway dynamics in tokamak disruptions with current relaxation

“…2015; Mai et al. 2021). To illustrate that it is conceivable to get significant reverse runaway beams in disruptions with an intact edge region, we return again to the alternative scenario detailed in Appendix A, but now, unlike in the case studied in figure 2, with an intact edge region outside .…”

“…2015; Mai et al. 2021), such as large sawteeth. However, we are not aware of any clear observation of a significant reverse runaway electron beam.…”

Runaway dynamics in tokamak disruptions with current relaxation