Detail publikace

N2 (B 3 Pi_g, v = 2 - 12) Populations During the Post-Discharge of Nitrogen-Oxygen Mixtures

Originální název

N2 (B 3 Pi_g, v = 2 - 12) Populations During the Post-Discharge of Nitrogen-Oxygen Mixtures

Anglický název

N2 (B 3 Pi_g, v = 2 - 12) Populations During the Post-Discharge of Nitrogen-Oxygen Mixtures

Jazyk

en

Originální abstrakt

This contribution presents results obtained during the kinetic study of DC flowing afterglow created in pure nitrogen with addition of oxygen up to 0.5 % at gas pressure of 1 kPa and discharge current of 160 mA. The results show that the populations at studied levels don't change a lot in the early afterglow up to about 8 ms. At later decay times, the populations significantly increase especially at oxygen concentrations under 300 ppm. This population increase reaches up one order at the highest oxygen concentration at the latest decay time. The vibrational distribution profile of N2 (B 3 Pi_g, v = 2 - 12) doesn't significantly change due to the oxygen addition.

Anglický abstrakt

This contribution presents results obtained during the kinetic study of DC flowing afterglow created in pure nitrogen with addition of oxygen up to 0.5 % at gas pressure of 1 kPa and discharge current of 160 mA. The results show that the populations at studied levels don't change a lot in the early afterglow up to about 8 ms. At later decay times, the populations significantly increase especially at oxygen concentrations under 300 ppm. This population increase reaches up one order at the highest oxygen concentration at the latest decay time. The vibrational distribution profile of N2 (B 3 Pi_g, v = 2 - 12) doesn't significantly change due to the oxygen addition.

BibTex


@inproceedings{BUT20331,
  author="František {Krčma} and Věra {Mazánková} and Ivo {Soural}",
  title="N2 (B 3 Pi_g, v = 2 - 12) Populations During the Post-Discharge of Nitrogen-Oxygen Mixtures",
  annote="This contribution presents results obtained during the kinetic study of DC flowing afterglow created in pure nitrogen with addition of oxygen up to 0.5 % at gas pressure of 1 kPa and discharge current of 160 mA. The results show that the populations at studied levels don't change a lot in the early afterglow up to about 8 ms. At later decay times, the populations significantly increase especially at oxygen concentrations under 300 ppm. This population increase reaches up one order at the highest oxygen concentration at the latest decay time. The vibrational distribution profile of N2 (B 3 Pi_g, v = 2 - 12) doesn't significantly change due to the oxygen addition.",
  address="Institute of Physics",
  booktitle="Proceedings of 23rd Summer School and International Symposium on the Physics of Ionized Gases",
  chapter="20331",
  institution="Institute of Physics",
  journal="Nezařazené články",
  year="2006",
  month="august",
  pages="387--390",
  publisher="Institute of Physics",
  type="conference paper"
}