摘要
A high-speed vacuum ultraviolet(VUV) imaging telescope system has been developed to measure the edge plasma emission(including the pedestal region) in the Experimental Advanced Superconducting Tokamak(EAST).The key optics of the high-speed VUV imaging system consists of three parts:an inverse Schwarzschild-type telescope,a micro-channel plate(MCP)and a visible imaging high-speed camera.The VUV imaging system has been operated routinely in the 2016 EAST experiment campaign.The dynamics of the two-dimensional(2 D) images of magnetohydrodynamic(MHD) instabilities,such as edge localized modes(ELMs),tearing-like modes and disruptions,have been observed using this system.The related VUV images are presented in this paper,and it indicates the VUV imaging system is a potential tool which can be applied successfully in various plasma conditions.
A high-speed vacuum ultraviolet(VUV) imaging telescope system has been developed to measure the edge plasma emission(including the pedestal region) in the Experimental Advanced Superconducting Tokamak(EAST).The key optics of the high-speed VUV imaging system consists of three parts:an inverse Schwarzschild-type telescope,a micro-channel plate(MCP)and a visible imaging high-speed camera.The VUV imaging system has been operated routinely in the 2016 EAST experiment campaign.The dynamics of the two-dimensional(2 D) images of magnetohydrodynamic(MHD) instabilities,such as edge localized modes(ELMs),tearing-like modes and disruptions,have been observed using this system.The related VUV images are presented in this paper,and it indicates the VUV imaging system is a potential tool which can be applied successfully in various plasma conditions.
基金
supported by National Natural Science Foundation of China under Contract No.11605244
the National Magnetic Confinement Fusion Science Program of China under Contract Nos.2014GB106000,2014GB106001 and 2013GB106000
