Triple langmuir probe, optical emission spectroscopy and lissajous figures for diagnosis of plasma produced by dielectric barrier discharge of parallel plates in atmospheric pressure

This work aimed to characterize a Dielectric Barrier Discharge (DBD) plasma equipment through optical and electrical measurements, seeking to obtain a greater knowledge of the plasma production process and how it behaves through the adopted parameters, such as frequency and voltage applied between e...

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Bibliographic Details
Published in:International journal of applied electromagnetics and mechanics 2020-06, Vol.63 (2), p.315-325
Main Authors: de Souza, Ivan Alves, de Medeiros Neto, Joao Freire, Nascimento, Igor Oliveira, Matamoros, Efrain Pantaleon, Feitor, Michelle Cequeira, Fernandes, Fernanda de Melo, Magalhães Sousa, Rômulo Ribeiro, de Carvalho Costa, Thércio Henrique
Format: Article
Language:English
Subjects:
Atmospheric pressure
Diagnosis
Dielectric barrier discharge
Electrical measurement
Electrical properties
Electron density
Electron energy
Electron temperature measurement
Emission spectroscopy
Lissajous figures
Optical emission spectroscopy
Parallel plates
Plasma
Spectrum analysis
Temperature measurement
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Summary:This work aimed to characterize a Dielectric Barrier Discharge (DBD) plasma equipment through optical and electrical measurements, seeking to obtain a greater knowledge of the plasma production process and how it behaves through the adopted parameters, such as frequency and voltage applied between electrodes, at a fixed distance of 1.7 mm. In order to measure them, three different characterization techniques were applied. The first method was the Lissajous figures, a technique quite effective for a complete electrical characterization of DBD equipment. The second technique used was the Optical Emission Spectroscopy, a tool used for the diagnosis of plasma, being it possible to identify the excited species produced in discharge in diffuse and filamentary regime in the plasma. And finally, the triple Langmuir probe technique was used to obtain the electron temperature and electron density. Based on this study, it was possible to identify the equipment efficiency in different regimes. The electron temperature measurement for both systems analyzed were 27.96 eV and 20.69 eV to the filamentary and diffuse regimes, respectively. The density of electrons number to these regimes were 1.09 × 1021 m−3 and 1.56 × 1021 m−3.
ISSN:1383-5416
1875-8800
DOI:10.3233/JAE-190044