Experimental progress and future plans on spherical tokamak, QUEST

Hanada, Kazuaki, Idei, Hiroshi, Ido, Takeshi, Ikezoe, Ryuya, Nagashima, Yoshihiko, Hasegawa, Makoto, Onchi, Takumi, Kinoshita, Toshiki, Kuroda, K, Oya, M, Oya, Yasuhisa, Nakamura, Kazuo, Yoshida, Naoaki, Nagata, Takahiro, Higashijima, Aki, Shimabukuro, Shun, Niiya, Ichiro, Sekiya, I, Kono, K, Kawasaki, S, Ejiri, A, Murakami, Sadayoshi, Raman, R, Ono, M

QUEST (Q-shu university experiment with steady state spherical tokamak) aims at effective plasma current start-up and stable maintenance of plasma discharge. To solve the inherent problems in a spherical tokamak (ST) arising from insufficient space for placing the inductive center solenoid, electron cyclotron current drive (ECCD) and transient coaxial helicity injection (T-CHI) are implemented as a non-inductive plasma start-up method in QUEST. Efficient ECCD assisted by energetic electrons could be achieved. By combining control of the wave injection angle and application of a negative toroidal electric field, the bulk electron temperature could be raised up to 1 keV due to selective wave power absorption in the bulk electrons. The plasma current of over 50 kA contained within the closed flux surface could be obtained with a floating single biased electrode placed on lower divertor plates for T-CHI. Long-pulse operations on QUEST are impeded frequently due to wall saturation and subsequent density runaway caused by fuel particle imbalance. Since 2014, a unique tool called the ‘hot wall’ has been implemented to overcome the imbalance. The hot wall has a capability to regulate its surface temperature using a heater and two water cooling channels. With the help of the hot wall, 6 h discharges were obtained in 2020. Cooling down of the surface of the hot wall was significantly effective in recovering the wall pumping and was useful to extend the pulse duration. Augmentation of the toroidal magnetic field, BT up to 0.5 T from 0.25 T and a continuous wave (CW) gyrotron of 28 GHz are planned for QUEST in the near future. As raising B_T provides a fundamental resonance of electron cyclotron waves (ECWs) with 28 GHz, more effective plasma current start-up and heating will be performed. Long-pulse operations with higher plasma parameters are expected.

Experimental progress and future plans on spherical tokamak, QUEST

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