Publication detail

Study of Kinetic Processes in Nitrogen Flowing Post-Discharge Containing Mercury Traces

MAZÁNKOVÁ, V. KRČMA, F. TRUNEC, D.

Original Title

Study of Kinetic Processes in Nitrogen Flowing Post-Discharge Containing Mercury Traces

English Title

Study of Kinetic Processes in Nitrogen Flowing Post-Discharge Containing Mercury Traces

Type

miscellaneous

Language

en

Original Abstract

optical emission spectroscopy was performed. Nitrogen 1st positive, 2nd positive and 1st negative spectral systems and mercury spectral line at 254 nm (in the spectrum of second order) were identified. The results showed dependence of mercury spectral line intensity on the decay time. The kinetic explanation of the mercury line excitation is based on the resonance energy transfer from the nitrogen metastable level N2 (X1Sigmag+, v = 19) to mercury atom. The rate coefficient of this reaction can be calculated from time dependencies of mercury spectral line intensities, but measurement uncertainty must be taken into account. The rate coefficient value was calculated to be in 10-22 m3s-1 order.

English abstract

optical emission spectroscopy was performed. Nitrogen 1st positive, 2nd positive and 1st negative spectral systems and mercury spectral line at 254 nm (in the spectrum of second order) were identified. The results showed dependence of mercury spectral line intensity on the decay time. The kinetic explanation of the mercury line excitation is based on the resonance energy transfer from the nitrogen metastable level N2 (X1Sigmag+, v = 19) to mercury atom. The rate coefficient of this reaction can be calculated from time dependencies of mercury spectral line intensities, but measurement uncertainty must be taken into account. The rate coefficient value was calculated to be in 10-22 m3s-1 order.

Keywords

Nitrogen post-discharge, mercury titration, energy transfer rate coefficient

Released

14.07.2013

Location

Granada

Pages from

PS3-009

Pages to

PS3-009

Pages count

3

Documents

BibTex


@misc{BUT101801,
  author="Věra {Mazánková} and František {Krčma} and David {Trunec}",
  title="Study of Kinetic Processes in Nitrogen Flowing Post-Discharge Containing Mercury Traces",
  annote="optical emission spectroscopy was performed. Nitrogen 1st positive, 2nd positive and 1st negative spectral systems and mercury spectral line at 254 nm (in the spectrum of second order) were identified. The results showed dependence of mercury spectral line intensity on the decay time. The kinetic explanation of the mercury line excitation is based on the resonance energy transfer from the nitrogen metastable level N2 (X1Sigmag+, v = 19) to mercury atom. The rate coefficient of this reaction can be calculated from time dependencies of mercury spectral line intensities, but measurement uncertainty must be taken into account. The rate coefficient value was calculated to be in 10-22 m3s-1 order.",
  booktitle="Proceedings of ICPIG XXXI",
  chapter="101801",
  howpublished="electronic, physical medium",
  year="2013",
  month="july",
  pages="PS3-009--PS3-009",
  type="miscellaneous"
}