Article
Plasma Investigations
2016. V. 54. № 6. P. 802–807
Qayyum A., Ahmad S., Deeba F., Hussain S.
Plasma measurements in pulse-discharge with resistively heated emissive probe
Annotation
A resistively heated emissive probe has been developed to work in low-pressure air plasma produced by $100$ Hz pulsed DC source. The evolution of the discharge and consequent rapid changes in plasma potential and electron temperature are characterized for different fill pressures at constant input voltage of $300$ V. The floating point method in the strong emission regime is applied to determine the plasma potential. Emissive probe responds to rapid changes in the discharge current during different stages of the pulse cycle. The electron temperature is determined from the potential difference of hot probe in the strong emission regime and the cold one incorporating the space charge effects of the hot probe. Temporal measurements of $V_p$ and $T_e$ describe the development and characteristics of the emissive probe technique for fast measurements in pulsating discharges.
Article reference:
Qayyum A., Ahmad S., Deeba F., Hussain S. Plasma measurements in pulse-discharge with resistively heated emissive probe, High Temp., 2016. V. 54. № 6. P. 802
Qayyum A., Ahmad S., Deeba F., Hussain S. Plasma measurements in pulse-discharge with resistively heated emissive probe, High Temp., 2016. V. 54. № 6. P. 802
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Impact factor 2022: 1.0
ISSN: 0040-3644 (Russian version)
ISSN: 0018-151X (English version)
ISSN: 1608-3156 (Online version)
ISSN: 1608-3156 (Online version)
