Episciences.org TEI export of ops:16405 - Open Plasma Science, 2026-02-11, ICPIG 2025

Episciences.org TEI export of ops:16405 - Open Plasma Science, 2026-02-11, ICPIG 2025CCSD - EpisciencesAttribution 4.0 International (CC BY 4.0)

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Modeling of evaporation of macroparticles of vacuum arcs by an electron beamIrynaLitovko0000-0003-3668-0215MartinRudolph0000-0002-0854-6708AndréAnders0000-0002-5313-6505AlexeyGoncharov0000-0002-3890-84582025-08-25 22:43:472026-02-11 00:00:00contributorIrynaLitovkoiryna.litovko@kinr.kyiv.uaCCSDops:16405http://ops.episciences.org/16405ops:16405 - Open Plasma Science, 2026-02-11, ICPIG 2025Attribution 4.0 International (CC BY 4.0)Modeling of evaporation of macroparticles of vacuum arcs by an electron beamIrynaLitovko0000-0003-3668-0215MartinRudolph0000-0002-0854-6708AndréAnders0000-0002-5313-6505AlexeyGoncharov0000-0002-3890-8458185884553076-1468Open Plasma ScienceUniversité de LorraineNancy, FranceICPIG 20252026-02-11T00:00:00+01:0010.46298/ops.16405Englishplasma opticsvacuum-arc dischargedropletsfast electronsfilm depositiondroplet evaporation

The evaporation of droplets in an arc plasma flow under the action of an electron beam injected into the arc plasma and the condition of direct heating of microdroplets by beam electrons are considered. Analytical modeling shows that droplets ≤1 μm in size can be completely evaporated over time scales typical for cathodic arc deposition systems. It is shown that small microdroplets evaporate more intensively. The lower limit working points in terms of plasma electron density, and the electron energy and density of the injected energetic electrons required for droplet evaporation are found.

Felix Bloch Institute of Solid State Physicshttps://ror.org/04vx4mk32Leibniz Institute of Surface Engineeringhttps://ror.org/052kdcb58Institute for Nuclear ResearchInstitute of Physics NAS of Ukraine