Characteristics of Microplasma Discharge Propagation Over the Titanium Surface Covered with a Thin Oxide Film

Characteristics of Microplasma Discharge Propagation Over the Titanium Surface Covered with a Thin Oxide Film

— The propagation and structure of a microplasma discharge initiated in vacuum by a pulsed plasma flow with a density of ∼10 13 cm − 3 on the surface of a titanium sample covered with a thin continuous dielectric titanium oxide film with a thickness of 2–6 nm were studied experimentally when the ele...

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Bibliographic Details
Published in:Journal of communications technology & electronics Vol. 68; no. 9; pp. 1067 - 1076
Main Authors: Ivanov, V. A., Konyzhev, M. E., Kamolova, T. I., Dorofeyuk, A. A.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-09-2023
Springer
Springer Nature B.V
Subjects:
Cathodes
Communications Engineering
Dielectric films
Discharge
Electric currents
Engineering
Localization
Metal surfaces
Microplasmas
Networks
Oxide coatings
Propagation
Thickness
Thin films
Titanium
Titanium oxides
propagation
thin dielectric oxide film
microplasma discharge
titanium
surface erosion
cathode spot
microcrater
glow
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Summary:— The propagation and structure of a microplasma discharge initiated in vacuum by a pulsed plasma flow with a density of ∼10 13 cm − 3 on the surface of a titanium sample covered with a thin continuous dielectric titanium oxide film with a thickness of 2–6 nm were studied experimentally when the electric current of the discharge changes from 50 to 400 A. It was found that the microplasma discharge glow at the macroscale has a branched structure of the dendrite type, which at the microscale consists of a large number of brightly glowing “point” formations, cathode spots, localized on the metal surface. The resulting erosion structure on the titanium surface is visually “identical” to the structure of the discharge glow and consists of a large number of separate non-overlapping microcraters with characteristic sizes from 0.1–3 µm, which are formed at the sites of localization of cathode spots at distances of up to 20 µm from each other. It was found that the propagation of a single microplasma discharge over the titanium surface covered with a thin oxide film with a thickness of 2–6 nm occurs at an average velocity of 15–70 m/s when the amplitude of the discharge electric current changes in the range of 50–400 A. In this case, the microplasma discharge propagation on the microscale has a “jumping” character: the plasma of “motionless” burning cathode spots, during their lifetime of ~1 μs, initiates the excitation of new microdischarges, which create new cathode spots at localization distances of 1–20 μm from the primary cathode spots. This process repeated many times during a microplasma discharge pulse with a duration from 0.1 to 20 ms.
ISSN:1064-2269
1555-6557
DOI:10.1134/S1064226923090097