Transverse Electric Discharges in Supersonic Air Flows: Mechanisms of Discharge Propagation and Instability

“…4 is apparently associated with two factors, namely, with the slow expansion of the channel diameter along the flow and with the variable extent of the discharge in space [4,5]. While the effect of the former factor is obvious, the effect of the latter factor needs to be explained.…”

“…The asynchronous mode produces a spectrum averaged over the time of observation and may be used to investigate dc discharges. The time of recording one frame is ~20 ms; several spectra were recorded during a single run (with the flow duration of ~2 s [4]). Digital filtering of the signal could be used additionally to reduce the effect of amplification path noise and of thermal noise of the sensor.…”

“…While the effect of the former factor is obvious, the effect of the latter factor needs to be explained. The position of coordinate of secondary breakdown under conditions being investigated corresponds to z 0 ≈ 2-3 cm [4]. After repeated breakdown, the energy deposition to the remaining (z > z 0 ) part of the channel decreases, and the temperature in this part of the channel starts decreasing because of the losses due to thermal conductivity and diffusion.…”

“…The experimental facility for developing pulsed discharges and a dc discharge in a supersonic jet was described in [4]. The facility was equipped with automated circuits for spectroscopic and probe measurements.…”

Transverse electric discharges in supersonic air flows: microscopic characteristics of discharge

“…4 is apparently associated with two factors, namely, with the slow expansion of the channel diameter along the flow and with the variable extent of the discharge in space [4,5]. While the effect of the former factor is obvious, the effect of the latter factor needs to be explained.…”

“…The asynchronous mode produces a spectrum averaged over the time of observation and may be used to investigate dc discharges. The time of recording one frame is ~20 ms; several spectra were recorded during a single run (with the flow duration of ~2 s [4]). Digital filtering of the signal could be used additionally to reduce the effect of amplification path noise and of thermal noise of the sensor.…”

“…While the effect of the former factor is obvious, the effect of the latter factor needs to be explained. The position of coordinate of secondary breakdown under conditions being investigated corresponds to z 0 ≈ 2-3 cm [4]. After repeated breakdown, the energy deposition to the remaining (z > z 0 ) part of the channel decreases, and the temperature in this part of the channel starts decreasing because of the losses due to thermal conductivity and diffusion.…”

“…The experimental facility for developing pulsed discharges and a dc discharge in a supersonic jet was described in [4]. The facility was equipped with automated circuits for spectroscopic and probe measurements.…”

Transverse electric discharges in supersonic air flows: microscopic characteristics of discharge

“…In 1970s-1980s, the study of glow discharges in a flow was associated with the production of cold homogeneous plasma as the active medium of high-power fast-flow lasers [4]. This paper is a continuation of the papers [5][6][7] devoted to the experimental study of electric discharges in supersonic flows of air at elevated pressure with the electrodes located in the plane perpendicular to the flow. The configuration of such a "transverse" discharge at not too low currents, which is observed in a wide range of velocities [1][2][3], is characterized by the presence of extended channels behind the anode and cathode located in parallel with the flow (Fig.…”

Transverse electric discharges in supersonic air flows: simulation of gasdynamic effects in the discharge channel

Plasma-dynamic discharges in transverse supersonic air flows