Study of Nitrogen Atom Recombination by Optical Emission Spectroscopy

Study of Nitrogen Atom Recombination by Optical Emission Spectroscopy

Článek recenzovaný mimo WoS a Scopus

The reaction kinetics in nitrogen flowing afterglow was studied by optical emission spectroscopy. The DC flowing post-discharge in pure nitrogen was created in a quartz tube at the total gas pressure of 1000 Pa. The optical emission spectra were measured along the flow tube. It was found that N atoms are the most important particles in the late nitrogen afterglow. In order to explain the decrease of N atom concentration, it was also necessary to include the surface recombination of N atoms to the model.

The reaction kinetics in nitrogen flowing afterglow was studied by optical emission spectroscopy. The DC flowing post-discharge in pure nitrogen was created in a quartz tube at the total gas pressure of 1000 Pa. The optical emission spectra were measured along the flow tube. It was found that N atoms are the most important particles in the late nitrogen afterglow. In order to explain the decrease of N atom concentration, it was also necessary to include the surface recombination of N atoms to the model.

optical emission spectroscopy, nitrogen afterglow, surface recombination coefficient

optical emission spectroscopy, nitrogen afterglow, surface recombination coefficient

MAZÁNKOVÁ, V.; TRUNEC, D.; KRČMA, F.

2016

01.09.2015

2336-2626

Plasma Physics and Technology

2

1

Česká republika

50

53

4

http://ppt.fel.cvut.cz/articles/2015/mazankova.pdf