(1)Plasmarbul M
image text translation
(2)1.7 billion C
(3)Figure 3 Differences in temperature and instability between FIRE and HH-mode
(4)In HH-mode, unstable ELM is generated at the plasma interface, making plasma control difficult, while FIRE mode does not have non-ELM
(5)The conventional H-mode did not control the plasma well due to instability at the outer boundary of the plasma, but in the newly discovered FIRE mode, high-energy particles generated during the first heating stabilized the turbulence inside the plasma and rather increased the temperature by themselves
(6)Temperature key
(7)Plasma radius pn
(8)Figure 2 Temperature graphs according to plasma radii of FIRE mode and conventional HH-mode. It can be seen that the temperature of the center part of the FIRE mode is much higher than that of the plasma edge compared to HH-mode
(9)The sharp temperature difference between the old and the newly discovered method is ㄷㄷ
(10)So, what are we going to do with the techniques we discovered
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