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Related Experiment Video

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Femtosecond Laser Filaments for Use in Sub-Diffraction-Limited Imaging and Remote Sensing
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Remote electrical arc suppression by laser filamentation: erratum.

Elise Schubert, Denis Mongin, Jérôme Kasparian

    Optics Express
    |August 10, 2017
    PubMed
    Summary

    Remote electrical unloading is reattributed to ions, not electrons, due to corrected electron transit time. Previous findings on discharge suppression and super corona analogy remain valid.

    Area of Science:

    • Plasma physics
    • Electrical engineering

    Background:

    • Previous studies suggested electron-mediated remote electrical unloading.
    • Accurate electron transit time is crucial for understanding plasma-electrode interactions.

    Purpose of the Study:

    • To re-evaluate the mechanism of remote electrical unloading.
    • To clarify the role of charged particles in discharge suppression.

    Main Methods:

    • Correction of electron transit time calculations.
    • Analysis of experimental data from [Opt. Express23, 286407 (2015)].

    Main Results:

    • Remote electrical unloading is primarily attributed to ion movement.
    • Electron transit time correction necessitates reassigning the unloading mechanism.

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  • Experimental results on discharge suppression and super corona analogy are consistent with ion-mediated effects.
  • Conclusions:

    • The primary charge carrier responsible for remote electrical unloading is ions.
    • The findings refine the understanding of plasma dynamics near electrodes.
    • Previous experimental validations remain robust despite the mechanistic correction.