1. Kinetic energy measurement of hydrogen in LHD peripheral plasma with a multi-wavelength-range fine-resolution spectrometer
- Author
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Tomomi Nishioka, Masahiro Hasuo, Keisuke Fujii, Motoshi Goto, Shigeru Morita, Keisuke Mizushiri, Taiichi Shikama, and Atsushi Iwamae
- Subjects
Physics ,Nuclear and High Energy Physics ,Range (particle radiation) ,Hydrogen ,chemistry.chemical_element ,Kinetic energy ,Velocity distribution ,Magnetic field ,Rotational energy ,Line shape ,chemistry ,Excited state ,Electron temperature ,Emission spectrum ,Atomic physics ,Charge exchange ,Instrumentation - Abstract
We have simultaneously measured high resolution emission spectra of the hydrogen atomic Balmer-α, -β, -γ lines and molecular Fulcher-α band for a LHD peripheral plasma generated under a central magnetic field strength of 0.4 T. It is found that the velocity distributions of excited atoms calculated from the Balmer-α, -β, and -γ line shapes show similar profiles to each other. The translational kinetic energy corresponding to the average velocity is about 13 eV, which is about 300 times larger than the rotational energy of hydrogen molecules estimated from the line intensities in the Fulcher-α band. The velocity distributions differ from Maxwellian and have a high velocity tail over 1×10 5 m/s. A correlation between the high velocity tail and the electron temperature and density is seen and suggesting the excited atoms having such high velocities to be generated by the charge exchange collisions from high velocity protons in the peripheral region.
- Published
- 2010