Abstract:
The subject of investigation is the emission properties of a pulsed-periodic barrier discharge initiated by submicrosecond pulses ($f$ = 40–1000 Hz) in He–I$_2$ and Ar–I$_2$ mixtures. The investigation is carried out in the spectral range 200–400 nm at a pressure of the working medium of 1–100 kPa and an iodine partial pressure of 130–200 Pa. The dependence of UV emission from the plasma of the barrier discharge at the 342 nm I$_2$(D' $\to$ A') band and the iodine atom spectral line at 206.2 nm on the argon and helium partial pressures, excitation pulses repetition rate, and charging voltage of the capacitor of a short high-voltage pulse modulator is optimized. The contribution of the 206.2 nm $I^*$ spectral line to the UV emission of the barrier discharge is estimated.
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