11th International Conference on Open Magnetic Systems for Plasma Confinement

Longitudinal electron energy distribution measurements in PR-2 mirror machine

10 Aug 2016, 15:00

3h

Novosibirsk

Board: 35

Poster Transport phenomena Poster session

Speaker

Mr Dobrynya Kolodko (National Research Nuclear University "MEPhI")

Description

Beam-plasma discharge is used in PR-2 (fig.1) [1]. Plasma parameters can be varied in a wide range. It is important to know the longitudinal electron energy distribution. Precise definition of electron energy distribution function allows interpreting Langmuir probe characteristics in a more accurate way. In addition, it allows understanding processes in auto-oscillating regime at plasma-surface interaction. [1, 2] ![Scheme of linear plasma device PR-2][8] The linear plasma device PR-2 has mirror ratio 1,55. Beam-plasma discharge is provided by electron beam 1 - 10 kV, power up to 10 kW. Measurements were carried out behind the magnet mirror with small-size integral electrostatic energy analyzer. The analyzer has long circular diaphragm with small radius to cut ions off. [3] The long (2 mm) diaphragm (d = 0,5 mm) is mounted on water-cooled collector with an aperture. The ions with larmor radius more than 0,5d are cut off. Integral electrostatic energy analyzer [4] is mounted behind the diaphragm. Retarding electrode is made of wide metal plate with a small aperture. Thus distortion of an electric field is negligible. Retarding potential is up to 10 kV. Second electrode and current detector is a Faraday cup under small positive potential (~30 V). The analyzer can measure electron energy distribution up to 10 kV. 1. Gutorov, K. M., Vizgalov, I. V., Markina, E. A., & Kurnaev, V. A. Influence of thin dielectric layers on electron emission and plasma-surface contact stability. Bulletin of the Russian Academy of Sciences: Physics, 2010, 74(2), 188-191 2. Gutorov, K. M., Vizgalov, I. V., & Kurnaev, V. A. High-voltage pulse generation in the auto-oscillating discharge. Applied Physics, 2011б (6), 87-90 3. Akhmetov, T. D., Davydenko, V. I., & Taskaev, S. Y. Measurements of the electron distribution function in the AMBAL-M startup plasma by an electrostatic analyzer. Plasma Physics Reports, 2000, 26(2), 152-156 4. I. H. Hutchinson, Principles of Plasma Diagnostics, Second Edition. Cambridge University Press, 2002, 94-99 [8]: https://pp.vk.me/c626229/v626229203/793/aaErFVanjXg.jpg

Presentation Materials

Paper

11082016_Kolodko.pdf

Slides

15092016_Kolodko.docx

15092016_Kolodko.pdf

Peer reviewing

Paper

Accepted on 15 Sep 2016 by Anton Sudnikov

Paper files:

• KOLODKO_OS2016.pdf
• 15092016_Kolodko.docx
• 15092016_Kolodko.pdf