Enhancement of negative hydrogen ion production in an electron cyclotron resonance source

In this paper, we present a method for improving the negative hydrogen ion yield in the electron cyclotron resonance source with driven plasma rings where the negative ion production is realized in two stages. First, the hydrogen and deuterium molecules are excited in collisions with plasma electrons to high-laying Rydberg and high vibration levels in the plasma volume. The second stage leads to negative ion production through the process of repulsive attachment of low-energy electrons by the excited molecules. The low-energy electrons originate due to a bombardment of the plasma electrode surface by ions of a driven ring and the thermoelectrons produced by a rare earth ceramic electrode, which is appropriately installed in the source chamber. The experimental and calculation data on the negative hydrogen ion generation rate demonstrate that very low-energy thermoelectrons significantly enhance the negative-ion generation rate that occurs in the layer adjacent to the plasma electrode surface. It is found that heating of the tungsten filaments placed in the source chamber improves the discharge stability and extends the pressure operation range. © 2013 The Royal Swedish Academy of Sciences.

Authors
Dugar-Zhabon V.D. 1 , Murillo M.T.1 , Karyaka V.I.2
Journal
Publisher
Royal Swedish Academy of Sciences
Number of issue
1
Language
English
Status
Published
Number
015504
Volume
88
Year
2013
Organizations
  • 1 Universidad Industrial de Santander, A A 678 Bucaramanga, Colombia
  • 2 Russian Friendship University, W-117198 Moscow, Russian Federation
Keywords
Ceramic electrodes; Discharge stability; Excited molecules; Low energy electrons; Negative hydrogen ions; Plasma electrodes; Plasma electrons; Tungsten filaments; Electric discharges; Electrons; Ion sources; Molecules; Negative ions; Plasmas; Hydrogen production
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