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RU
Vol 196
Pages:
347-355
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RUS
Article

Microplasma analytical sensor for gas mixtures diagnostics

Authors:
A. S. Mustafaev1
A. B. Tsyganov2
About authors
  • 1 — Ph.D., Dr.Sci. professor Saint Petersburg State Mining University
  • 2 — post-graduate student Saint Petersburg State Mining University
Date submitted:
2011-08-10
Date accepted:
2011-10-03
Date published:
2012-05-22

Abstract

Theoretical consideration of collision electron spectroscopy (CES) for gaseous media analysis and experimental results on CES detector are presented. It is demonstrated that a diffusion path confinement for characteristic electrons provides a possibility to measure electrons energy distribution function and to find characteristic spectra of species at high (up to atmospheric) gas pressure. Simple micro-plasma CES detector of two plane parallel electrode configuration with current-voltage measurement in afterglow of helium glow discharge may be designed to operate at a high gas pressure up to atmospheric one. Experimental electron energy spectra of pair He metastables collisions in dependence of interelectrode gap are discussed.

Область исследования:
(Archived) Nanotechnologies and information technologies
Keywords:
microplasma electron energy distribution function gas mixtures diagnostics microplasma analytical sensor
Go to volume 196

References

  1. Russian patent application N 2009143641. Method for gas mixture content determination and ionization detector for admixtures analysis / A.A.Kudryavtsev, A.B.Tsyganov, A.S.Chirtsov. Issued 26.11.2009.
  2. Patent of Russian Federation No 2217739. Gas analysis method and ionisation detector for carrying out said method / A.A.Kudryavtsev, A.B.Tsyganov. Publ. 27.11.2003.
  3. Blagoev A.B., Kagan Yu.M., Kolokolov N.B., Lyagushchenko R.I. Electron energy distribution in the afterflow II // Sov. Phys. Tech. Phys. 1974. Vol.19.
  4. Demidov V.I., Kolokolov N.B. Study of elastic electron collisions by plasma electron spectroscopy // Sov. Phys. 1987. Vol.30.
  5. Demidov V.I., Adams S.F., Blessington J. et al. Short DC discharge withwall probe as a gas analytical detector // Contrib. Plasma Phys. 2010. Vol.50. N 9.
  6. Patent US 7,309,992. Gas analysis method and ionisation detector for carrying out said method // A.A.Kudryavtsev, A.B.Tsyganov. Publ. 18.12.2007.
  7. Raizer Yu.P. Gas discharge physics. Springer, 1991.
  8. Sheverev V.A., Khromov N.A., Kojiro D.R. Penning ionization electron spectroscopy in glow discharge: Another dimension for gas chromatography detectors // Anal. Chem. 2002. Vol.74.
  9. Hufner S. Photoelectron spectroscopy. principles and applications. Springer, 2003.
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