Experimental Study of a Long-Living Plasmoid Using High-Speed Filming

Stelmashuk, V.; Hoffer, Petr

doi:10.1109/tps.2017.2770224

Cited by 16 publications

(22 citation statements)

References 16 publications

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“…A scale bar is included, and the times provided in the images indicate the time after the discharge is initiated. These images also demonstrate various phases of the discharge as previously described by [9,12]. Towards the end of the discharge (∼300 ms), it appears as though an autonomous plasmoid exists without power input from the electrode.…”

Section: Resultssupporting

confidence: 74%

“…Recently, several publications have described the generation and analysis of ball plasmoid discharges [1][2][3][4][5][6][7][8][9][10][11][12]. Ball plasmoids are uniquely long-lived at atmospheric pressure and are generated via a pulse of stored energy from a capacitor bank over the surface of an electrolyte.…”

Section: Introductionmentioning

confidence: 99%

“…In addition to this long lifetime, there are several components of the discharge which are fundamentally interesting, but make analyzing this system difficult. For example, it has been shown [12] that the early stages of ball plasmoid formation are governed by the development of streamers (arcs) between the central electrode and grounded electrolyte, and that these arc channels are highly dynamic. There are also processes occurring on several time scales that must be studied to develop a complete understanding of these discharges; e.g., electron impact excitation and ionization, chemical reaction processes, and fluid dynamic effects.…”

Section: Introductionmentioning

confidence: 99%

“…References [1][2][3][4][5][6][7][8][9][10][11][12] describe the production of ball plasmoids from a specific electrode polarity. The typical configuration for ball plasmoid discharges utilizes the central electrode as the cathode, while the submerged ring electrode serves as the anode.…”

Section: Introductionmentioning

confidence: 99%

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Electrical Properties of Reversed-Polarity Ball Plasmoid Discharges

Dubowsky

Rose

Glumac

et al. 2020

Plasma

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Ball plasmoid discharges are a unique type of atmospheric-pressure plasma discharge with a lifetime on the order of a hundred milliseconds without attachment to a power source. These discharges are generated by a moderate current pulse over the surface of an aqueous electrolyte, and some consider the spherical plasmoid that results to bear some resemblance to ball lightning. This article presents the first analysis of the electrical properties of ball plasmoid discharges in a reversed-polarity configuration, i.e., with the central electrode serving as the anode rather than as the cathode. These experiments demonstrate that ball plasmoids can indeed be generated with either electrode polarity with similar observable properties. These results are contrary to what has previously been discussed in the literature and raise additional questions regarding formation mechanisms of ball plasmoids. Analysis of images and electrical measurements collected at various discharge energies show that two distinct processes occur during discharges with our circuitry and in this reversed-polarity configuration: the formation of spark channels between the anode and electrolyte, and the generation of streamers and a jet from the surface of the anode.

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Section: Resultssupporting

confidence: 74%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Electrical Properties of Reversed-Polarity Ball Plasmoid Discharges

Dubowsky

Rose

Glumac

et al. 2020

Plasma

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“…Также в [30] был рассмотрен вопрос о форме центрального электрода, были получены плазмоиды с плоского центрального электрода и отмечено, что добавление воды на электрод не является необходимой процедурой для получения долгоживущих плазмоидов, что ранее в [2] также отмечалось. Противоположное мнение, например в [31], состояло в том, что при добавлении воды на электрод создаются высокоэнергетические радикалы, которые способствуют более длитель-ному свечению плазмоидов. Возвращаясь к заземлению, отметим, что инструментальные измерения показали ( [26] и ссылки в этой работе), что при заземлении центрального электрода нескомпенсированный заряд в плазмоиде отсутствует.…”

Section: обсуждение и выводыunclassified

Влияние Магнитных И Электрических Полей На Динамику Образования Плазмоидов В Гатчинском Разряде

Zhao

Yuan

Кудрявцев

et al. 2022

Журнал Технической Физики

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The behavior in magnetic and electric fields of the Gatchina discharge, which is used mainly to create an analog of ball lightning in the laboratory in a normal atmosphere, is analyzed. Shown that in these studies it is possible to determine the sign of an uncompensated electric charge as in the active phase of the discharge, and in the forming long-lived luminous formations. Also shown that electric and magnetic fields can change the direction of movement of the forming luminous formation and even completely block its formation. The type and mechanism of existence firework ball lightning are considered, photos of which are presented in widely known monographs on the ball lightning.

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Experimental Modeling of BL and LLO

Бычков

2022

Springer Atmospheric Sciences

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Experimental Study of a Long-Living Plasmoid Using High-Speed Filming

Cited by 16 publications

References 16 publications

Electrical Properties of Reversed-Polarity Ball Plasmoid Discharges

Electrical Properties of Reversed-Polarity Ball Plasmoid Discharges

Влияние Магнитных И Электрических Полей На Динамику Образования Плазмоидов В Гатчинском Разряде

Experimental Modeling of BL and LLO

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