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Spectroscopy of pulsed nonequilibrium plasma allows to control behaviour of active particles in situ, that is with subnanosecond temporal and high spatial resolution. Present work demonstrates advantages of emission optical spectroscopy as applied to kinetic description of pulse-periodic discharges at high overvoltages in the pressure range 0.1-30 Torr and at atmospheric pressure. Features in common and distinction in experimental observation of such discharges are discussed. Measurements of velocity of the discharge propagation, reduced electric field behaviour and number density of excited particles are represented for a wide range of experimental conditions.
Svetlana M. Starikovskaia,Nikolay B. Anikin,Sergey V. Pancheshnyi, andAndrey Yu Starikovskii
"Time-resolved emission spectroscopy and its applications to the study of pulsed nanosecond high-voltage discharges", Proc. SPIE 4460, Selected Research Papers on Spectroscopy of Nonequilibrium Plasma at Elevated Pressures, (19 March 2002); https://doi.org/10.1117/12.459416
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Svetlana M. Starikovskaia, Nikolay B. Anikin, Sergey V. Pancheshnyi, Andrey Yu Starikovskii, "Time-resolved emission spectroscopy and its applications to the study of pulsed nanosecond high-voltage discharges," Proc. SPIE 4460, Selected Research Papers on Spectroscopy of Nonequilibrium Plasma at Elevated Pressures, (19 March 2002); https://doi.org/10.1117/12.459416