Bactericidal Components Diagnostics of Air Plasma Jets by IR and UV Absorption Spectroscopy

The bactericidal components of air plasma jets generated by a direct current glow discharge and a dielectric barrier discharge were studied using IR and UV absorption spectroscopy. The mole fractions of bactericidal components with a band structure of the absorption spectrum were determined by selecting a mole fraction value in the calculated spectrum that ensured compliance with the experimental spectrum. The spectra were calculated using the Hitran spectral database and the Specair 3.0 program. The error in mole fractions due to the violation of the Bouguer–Lambert–Beer law when using absorption coefficients convolved with the instrumental function was determined. The mole fractions of bactericidal components with a continuous absorption spectrum were calculated using the Bouguer–Lambert–Beer law in a standard way. It was shown that the methods of IR and UV absorption spectroscopy make it possible to determine the mole fractions for the full set of bactericidal components in air plasma jets of glow and barrier discharges.

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