Low-current discharge plasma jets in a gas flow. Application of plasma jets

Korolev, Yu. D.

doi:10.1134/s1070363215050473

Cited by 52 publications

(28 citation statements)

References 76 publications

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“…4,24 At a later time, due to explosive emission process, 4,24-29 the arc cathode spot is initiated and glow-to-arc transition occurs. 4,[30][31][32][33][34] Note that the other method of the switch triggering depends on the so called electric circuit of classical thyratron. 5,6 In this circuit, the only grounded electrode is the cathode C 1 .…”

Section: Principle Of Thyratron Operation As Applied To the Propomentioning

confidence: 99%

“…The reason is that the first stage of the discharge development is determined by discharging the capacitance of the cable which connects the trigger unit with the trigger generator. 30,33 This capacitance is about 100 pF. Thereafter, the current waveform is determined by the inductance of the exit circuit of the trigger generator.…”

Section: Regimes Of Triggering and Delay Time To Breakdown In Thementioning

confidence: 99%

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Triggering of cold-cathode thyratron in electric circuit with grounded grid

et al. 2017

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Dependence of pre-breakdown time on ionization processes in a pseudospark discharge AIP Advances 7, 115005 (2017); https://doi.org/10.1063/1.5003242Development of high-power gas discharge and electronic vacuum devices for pulsed electrophysic. This paper deals with the investigations of the sealed-off hold-cathode thyratron (pseudospark switch) TPI1-10k/50, which is commercially produced by the Pulsed Technology Ltd., Ryazan, Russia. The trigger unit of the switch is based on a low-current auxiliary glow discharge. The new method for the switch triggering is proposed. The essence of the method is that the thyratron grid and the hollow cathode of the auxiliary discharge has to be grounded and the trigger pulse is applied to the ring anode of the trigger unit. In the proposed method, an undesirable high-voltage spike at the thyratron grid, which can appear with a usage of the other methods of triggering, is absent. It is shown that to trigger the thyratron a critical pulsed current to the main cathode cavity at a level of 0.8 A and higher should be provided. When the current exceeds the critical value, the jitter in the delay time to triggering falls in a range of 10 ns. This means that the method of triggering can be used in a variety of applications that require a low jitter in the delay time. © 2017 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license

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Section: Principle Of Thyratron Operation As Applied To the Propomentioning

confidence: 99%

Section: Regimes Of Triggering and Delay Time To Breakdown In Thementioning

confidence: 99%

Triggering of cold-cathode thyratron in electric circuit with grounded grid

et al. 2017

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“…In recent years, interest in atmospheric-pressure glow discharges, including those in a gas flow, has increased significantly [1][2][3][4][5][6][7][8][9]. When the glow discharge is concerned, it is usually implied that it is a low-pressure discharge, which is stationary by its nature.…”

Section: Introductionmentioning

confidence: 99%

“…Glow discharges in large volumes or at atmospheric pressure can operate only in the pulsed mode [10][11][12], because, after some time (about 1 μs or less), such a discharge transforms into a spark. This process is usually initiated by explosive emission instability in the cathode sheath and the formation of a cathode spot [1,10,[13][14][15][16][17][18][19]. Nevertheless, it is still possible to implement stationary glow discharges or discharges with random short-term transitions into the spark mode at atmospheric pressure [1,[20][21][22].…”

Section: Introductionmentioning

confidence: 99%

“…This process is usually initiated by explosive emission instability in the cathode sheath and the formation of a cathode spot [1,10,[13][14][15][16][17][18][19]. Nevertheless, it is still possible to implement stationary glow discharges or discharges with random short-term transitions into the spark mode at atmospheric pressure [1,[20][21][22]. The necessary conditions for this are a sufficiently low discharge current (not exceeding several fractions of ampere) and a small transverse size of the plasma column (as a rule, less than 1 mm).…”

Section: Introductionmentioning

confidence: 99%

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Simulation of nonstationary phenomena in atmospheric-pressure glow discharge

et al. 2016

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Nonstationary processes in atmospheric-pressure glow discharge manifest themselves in spontaneous transitions from the normal glow discharge into a spark. In the experiments, both so-called completed transitions in which a highly conductive constricted channel arises and incomplete transitions accompanied by the formation of a diffuse channel are observed. A model of the positive column of a discharge in air is elaborated that allows one to interpret specific features of the discharge both in the stationary stage and during its transition into a spark and makes it possible to calculate the characteristic oscillatory current waveforms for completed transitions into a spark and aperiodic ones for incomplete transitions. The calculated parameters of the positive column in the glow discharge mode agree well with experiment. Data on the densities of the most abundant species generated in the discharge (such as atomic oxygen, metastable nitrogen molecules, ozone, nitrogen oxides, and negative oxygen ions) are presented.

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Physico-Chemical Processes Induced by Electrical Breakdown and Discharge Responsible for Memory Effect in Krypton with < 10 ppm Nitrogen

Pejović

Stanković

2017

Plasma Chem Plasma Process

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Low-current discharge plasma jets in a gas flow. Application of plasma jets

Cited by 52 publications

References 76 publications

Triggering of cold-cathode thyratron in electric circuit with grounded grid

Triggering of cold-cathode thyratron in electric circuit with grounded grid

Simulation of nonstationary phenomena in atmospheric-pressure glow discharge

Physico-Chemical Processes Induced by Electrical Breakdown and Discharge Responsible for Memory Effect in Krypton with < 10 ppm Nitrogen

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