Stimulated effect of SMBI on low-to-high confinement transition of tokamak plasmas

W.L Zhong,X.R Duan,Z.B Shi,X.L Zou,J Wen,W.W Xiao,Z.X Wang,Yi Liu,W Chen,M Jiang,D.L Yu,X.T Ding,L.W Yan,Z.C Yang,C.Y Chen,X.M Song,Xiao Ji ,Peng Shi ,Jian Yin ,Qingwei Yang ,M Xu,Bobo Feng ,Kairui Fang ,G Z Hao ,J Q Dong ,Guoliang Xiao ,Anshu Liang

doi:10.1088/1741-4326/ab868d

W.L Zhong, X.R Duan + Show 25 more

https://doi.org/10.1088/1741-4326/ab868d

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The impact of supersonic molecular beam injection (SMBI) fuelling on the plasma turbulence and shear flows, which form a self-consistent state, has been studied in the HL-2A tokamak. The SMBI flattens the shear layer by the collisional flow damping and increases the turbulence intensity. It is found that the SMBI can enhance the non-linear regulation dynamics and acts as an external tool for turbulence quench via stimulating two dynamic processes. The SMBI-stimulated non-linear interactions facilitate the L-H transition at the marginal heating power for accessing the H-mode. The effective reduction of the H-mode power threshold by SMBI is demonstrated. The result suggests that the SMBI could be a general tool for realization of controllable L-H transition via reducing the H-mode power threshold in future devices.

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