Publication detail

FTIR diagnostic of nitrogen - methane atmospheric glow discharge used for a mimic of prebiotic atmosphere

MAZÁNKOVÁ, V. TÖRÖKOVÁ, L. KRČMA, F. MASON, N. J. MATĚJČÍK, Š.

Original Title

FTIR diagnostic of nitrogen - methane atmospheric glow discharge used for a mimic of prebiotic atmosphere

English Title

FTIR diagnostic of nitrogen - methane atmospheric glow discharge used for a mimic of prebiotic atmosphere

Type

abstract

Language

en

Original Abstract

This work is focused on experiments with water (H2O) addition to the atmospheric glow discharge fed by N2-CH4 mixture and diagnostic of this discharge by FTIR. The discharge was created between two stainless steel electrodes separated by a 2 mm gap. The electrode system used the standard configuration of the gliding arc discharge but due to the low applied power as well as low gas velocity the discharge is not moving along the electrodes.

English abstract

This work is focused on experiments with water (H2O) addition to the atmospheric glow discharge fed by N2-CH4 mixture and diagnostic of this discharge by FTIR. The discharge was created between two stainless steel electrodes separated by a 2 mm gap. The electrode system used the standard configuration of the gliding arc discharge but due to the low applied power as well as low gas velocity the discharge is not moving along the electrodes.

Keywords

FTIR, atmospheric glow discharge

Released

16.01.2017

Location

Olhao

Pages from

17

Pages to

17

Pages count

1

BibTex


@misc{BUT142056,
  author="Věra {Mazánková} and Lucie {Töröková} and František {Krčma}",
  title="FTIR diagnostic of nitrogen - methane atmospheric glow discharge used for a mimic of prebiotic atmosphere",
  annote="This work is focused on experiments with water (H2O) addition to the atmospheric glow discharge fed by N2-CH4 mixture and diagnostic of this discharge by FTIR. The discharge was created between two stainless steel electrodes separated by a 2 mm gap. The electrode system used the standard configuration of the gliding arc discharge but due to the low applied power as well as low gas velocity the discharge is not moving along the electrodes.",
  booktitle="The Astrochemical Week, COST Action CM1401: Book of abstracts",
  chapter="142056",
  howpublished="print",
  year="2017",
  month="january",
  pages="17--17",
  type="abstract"
}