A new linear plasma device for various edge plasma studies at SWIP

To facilitate the plasma-material interactions (PMI) studies, Southwestern Institute of Physics (SWIP) has constructed a linear plasma device. It is comprised of a source chamber ($\Phi $ 0.4 m), a target chamber ($\Phi $ 0.9 m), 15 magnets with different sizes, and power supplies with the total power of a few hundred kilowatts, etc. A maximum magnetic field of 0.3 Tesla along the axial direction can be produced. The current of each of the 15 magnets can be independently controlled. More than 60 ports are available for diagnostics, with the sizes vary from $\Phi $ 50 mm to $\Phi $ 150 mm. Rectangular ports of 190 mm×270 mm are also available. 12 ports looking at the sample holder are specially designed for ion beam injection, of which the axes are 25° to the chamber axis. The device is equipped with a LaB6 hot cathode plasma source, which is able to generate steady-state H/D/He plasmas with a diameter of \textasciitilde $\Phi $ 100 mm, density of \textasciitilde 1x10\textasciicircum 19/m\textasciicircum 3, and a particle flux of 10\textasciicircum 22\textasciitilde 10\textasciicircum 23 n/m\textasciicircum 2.s. The electron temperature is usually \textasciitilde a few eV. Further, a Helicon RF plasma source is also planned for plasma transport studies.