Publication detail

Light Emission and Temperatures During the DC Afterglow in Nitrogen-Oxygen Mixtures

KRČMA, F. MAZÁNKOVÁ, V. SOURAL, I. ŠIMEK, M.

Original Title

Light Emission and Temperatures During the DC Afterglow in Nitrogen-Oxygen Mixtures

English Title

Light Emission and Temperatures During the DC Afterglow in Nitrogen-Oxygen Mixtures

Type

conference paper

Language

en

Original Abstract

This contribution presents results obtained during the wide study focused on the oxygen influence to the pure nitrogen post-discharge. The DC flowing afterglow in Pyrex tube (i.d. 13 mm) at discharge current of 150 mA and pressure of 1000 Pa was studied by optical emission spectroscopy at decay times in the range of 3 - 45 ms. Many band head intensities of 1st and 2nd positive and 1st negative nitrogen spectral systems were observed as a function of oxygen concentration in the wide range from 0 up to 5000 ppm. The nitrogen pink afterglow effect was observed in all cases. Temperature during the afterglow was determined by two different ways. The first one was the direct calculation of the rotational temperature of nitrogen 1st positive 2-0 band using numeric simulation of this spectral band. The second way was the use of the ratio of band head intensities originating from 11 and 12 vibrational levels of N_2 (B ^3 Pi_g) state because these levels were populated during the afterglow mainly by the atomic nitrogen recombination that was strongly quenched.

English abstract

This contribution presents results obtained during the wide study focused on the oxygen influence to the pure nitrogen post-discharge. The DC flowing afterglow in Pyrex tube (i.d. 13 mm) at discharge current of 150 mA and pressure of 1000 Pa was studied by optical emission spectroscopy at decay times in the range of 3 - 45 ms. Many band head intensities of 1st and 2nd positive and 1st negative nitrogen spectral systems were observed as a function of oxygen concentration in the wide range from 0 up to 5000 ppm. The nitrogen pink afterglow effect was observed in all cases. Temperature during the afterglow was determined by two different ways. The first one was the direct calculation of the rotational temperature of nitrogen 1st positive 2-0 band using numeric simulation of this spectral band. The second way was the use of the ratio of band head intensities originating from 11 and 12 vibrational levels of N_2 (B ^3 Pi_g) state because these levels were populated during the afterglow mainly by the atomic nitrogen recombination that was strongly quenched.

Keywords

nitrogen post-discharge, pink afterglow, post-discharge kinetics, optical spectroscopy, rotational temperature

RIV year

2007

Released

15.07.2007

Publisher

Ústav fyziky plazmatu AV ČR

Location

Praha

ISBN

978-80-87026-00-7

Book

International Conference on Phenomena in Ionized Gases - Book of Abstracts

Pages from

207

Pages to

207

Pages count

1

BibTex


@inproceedings{BUT22810,
  author="František {Krčma} and Věra {Mazánková} and Ivo {Soural} and Milan {Šimek}",
  title="Light Emission and Temperatures During the DC Afterglow in Nitrogen-Oxygen Mixtures",
  annote="This contribution presents results obtained during the wide study focused on the oxygen influence to the pure nitrogen post-discharge. The DC flowing afterglow in Pyrex tube (i.d. 13 mm) at discharge current of 150 mA and pressure of 1000 Pa was studied by optical emission spectroscopy at decay times in the range of 3 - 45 ms. Many band head intensities of 1st and 2nd positive and 1st negative nitrogen spectral systems were observed as a function of oxygen concentration in the wide range from 0 up to 5000 ppm. The nitrogen pink afterglow effect was observed in all cases. Temperature during the afterglow was determined by two different ways. The first one was the direct calculation of the rotational temperature of nitrogen 1st positive 2-0 band using numeric simulation of this spectral band. The second way was the use of the ratio of band head intensities originating from 11 and 12 vibrational levels of N_2 (B ^3 Pi_g) state because these levels were populated during the afterglow mainly by the atomic nitrogen recombination that was strongly quenched.",
  address="Ústav fyziky plazmatu AV ČR",
  booktitle="International Conference on Phenomena in Ionized Gases - Book of Abstracts",
  chapter="22810",
  institution="Ústav fyziky plazmatu AV ČR",
  year="2007",
  month="july",
  pages="207--207",
  publisher="Ústav fyziky plazmatu AV ČR",
  type="conference paper"
}