• Title of article

    Evidence of energetic reactions between hydrogen and oxygen species in RF generated H2O plasmas

  • Author/Authors

    Phillips، نويسنده , , Jonathan and Ku Chen، نويسنده , , Chun and Mills، نويسنده , , Randell L.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    14
  • From page
    2419
  • To page
    2432
  • Abstract
    Selective H-atom line broadening was found to be present throughout the volume ( 14 cm ID × 38 cm length) of low pressure (0.03–0.4 Torr) H2O only RF plasmas generated in an RF capacitively coupled parallel-plate cell. An exhaustive study of the first four Balmer lines in water plasmas operated over a range of pressures and absorbed powers revealed significant trends. Of greatest interest was the finding that at low pressures (ca. < 0.08 Torr ) a significant fraction (between 10% and 40%) of the atomic hydrogen was ‘hot’ with energies greater than 40 eV. The magnitude of the line broadening was found not only to be pressure dependent, but also to be a weak function of the energy absorbed by the system. The degree of broadening was virtually independent of the position studied within the RF capacitively coupled parallel-plate cell, similar to the finding for H2/He and H2/Ar plasmas in the same capacitively coupled cell, reported elsewhere. In contrast to the atomic hydrogen lines, no broadening was observed in oxygen species lines at low pressures. Also, in ‘control’ H2/Xe plasmas run in the same cell at similar pressures and adsorbed power, little broadening of either atomic hydrogen, Xe or any other lines was observed. The values of the line broadenings observed in the low pressure water plasmas, and the fact that they were observed throughout the volume, are consistent with predictions of the Mills model, CQM, of populating fractional quantum states in H-atoms via catalytic resonant transfer processes. In particular CQM predicts that O2 can act as a catalyst for the RT process, and spectroscopy shows the water plasma contain a significant O2 population. Standard physics models of preferential hydrogen line broadening, developed explicitly for hydrogen/argon mixtures, are clearly not consistent with any aspect of the behavior observed in the water plasma data reported here.
  • Keywords
    PLASMA , RF , Balmer series , Line broadening , water
  • Journal title
    International Journal of Hydrogen Energy
  • Serial Year
    2008
  • Journal title
    International Journal of Hydrogen Energy
  • Record number

    1654446