L. V. Simonchik scite author profile

It has been shown that self-sustained normal dc atmospheric pressure glow discharge (APGD) in helium exists in a large range of current values from 100 µA to 10 A. The plasma of this discharge is weakly ionized (one thousandth part of a per cent) and is non-equilibrium. The plasma non-equilibrium degree in the positive column depends on the discharge current values. Parameters of the cathode region stay constant over the whole current range of normal APGD.

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Cathode fall parameters of a self-sustained normal glow discharge in atmospheric-pressure helium

Arkhipenko¹,

Zgirovskii²,

Kirillov³

et al. 2002

Plasma Phys. Rep.

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Influence of cathode temperature on the parameters of an atmospheric pressure dc glow discharge

Arkhipenko

Kirillov

Safronau

et al. 2008

Plasma Sources Sci. Technol.

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It is shown that the cathode temperature has a significant influence on the properties of the cathode fall in a self-sustained, normal, dc, atmospheric pressure glow discharge in helium and, in particular, on the electric field distribution, the thickness of the cathode fall layer, the current density and the gas temperature. An increase in the cathode temperature leads to an increase in the gas temperature and cathode fall thickness, a decrease in the current density and a modification in the radial distribution of the electric field close to the cathode surface. A discussion based on a one-dimensional model of the cathode fall region including gas heating is presented.

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DC atmospheric pressure glow microdischarges in the current range from microamps up to amperes

et al. 2010

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Observation of the strong anomalous absorption of the X-mode pump in a plasma filament due to the two-plasmon decay

Altukhov¹,

Arkhipenko²,

Gurchenko³

et al. 2019

EPL

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The effect of strong anomalous absorption of the X-mode pump wave associated with the two-upper-hybrid-plasmon parametric decay is observed in a specially performed model experiment in a laboratory plasma. The strong microwave absorption takes place at the maximal plasma density higher than the upper-hybrid resonance value for the frequency equal to half of the pump frequency value. Its efficiency is determined at the level of 80% in the initial stage of the parametric decay instability saturation and 45% in the following steady state. The theoretical model of the two-upper-hybrid-plasmon decay in strongly inhomogeneous plasma is developed. The localization, threshold and growth rate of the instability are determined in agreement with experimental observations.

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L. V. Simonchik

Self-sustained dc atmospheric pressure normal glow discharge in helium: from microamps to amps

Cathode fall parameters of a self-sustained normal glow discharge in atmospheric-pressure helium

Influence of cathode temperature on the parameters of an atmospheric pressure dc glow discharge

DC atmospheric pressure glow microdischarges in the current range from microamps up to amperes

Observation of the strong anomalous absorption of the X-mode pump in a plasma filament due to the two-plasmon decay

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