Title :
Characterization of Gun Plasma Penetrated Into a Steady State Plasma Device
Author :
Kajita, Shugo ; Akiyama, Toyokazu ; Nihashi, Takuya ; Osaka, Masahiko ; Ohno, N. ; Kikuchi, Yutaka ; Sakuma, Ichiro ; Nagata, M.
Author_Institution :
EcoTopia Sci. Inst., Nagoya Univ., Nagoya, Japan
Abstract :
Characterization of a pulsed plasma formed with a plasma gun device was performed. The averaged electron density was measured with an interferometer system using a Zeeman laser at 633 nm. It was found that the plasma with the density of ~ 1022 m-3 was successfully formed. The temporal evolution of the plasma was observed with a fast framing camera. It was found that the shape of the plasma was significantly varied temporally. From the intensity profile, the vertical emission profile was obtained using Abel inversion. The emission profile had a flat top shape with the radius of ~ 20 mm, and gradually decreased with the radius. The penetration behavior of the gun plasma across the magnetic field was observed.
Keywords :
electron density; light interferometers; plasma density; plasma diagnostics; plasma guns; Abel inversion; Zeeman laser; electron density; fast framing camera; gun plasma; interferometer system; magnetic field; plasma shape; plasma temporal evolution; pulsed plasma; steady state plasma device; vertical emission profile; wavelength 633 nm; Density measurement; Discharges (electric); Magnetic resonance imaging; Measurement by laser beam; Plasma measurements; Plasmas; Voltage measurement; Fast framing camera; interferometer; plasma gun;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2281610
