Atmospheric Pressure Non-Thermal Plasmas I

FOCUS · FT2 · ID: 3430074

Presentations

  • ORAL

    Publication: [1] Darny, T., et al. Plasma Sources Science and Technology 29, 065012 (2020).
    [2] Taihi, A., & Pai, D. Bulletin of the American Physical Society (2024). Presented at the 77th Gaseous Electronics Conference, September 30 - October 4, 2024; San Diego, California.

    Presenters

    • Ayah Taihi

      • LPP - Ecole Polytechnique - CNRS
      • LPP CNRS Ecole Polytechnique

    Authors

    • Ayah Taihi

      • LPP - Ecole Polytechnique - CNRS
      • LPP CNRS Ecole Polytechnique

    • David Pai

      • LPP - Ecole Polytechnique - CNRS

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  • ORAL

    Presenters

    • Julian Schulze

      • Ruhr University Bochum

    Authors

    • Julian Schulze

      • Ruhr University Bochum

    • Constantin Neuroth

      • Ruhr University Bochum

    • Muhammad Azhar

      • Ruhr University Bochum

    • Lei-Yu Zhang

      • Dalian University of Technology

    • Li Wang

      • Ruhr University Bochum
      • Chair of Applied Electrodynamics and Plasma Technology, Ruhr University Bochum, Bochum, Germany

    • Quan Zhi Zhang

      • Dalian University of Technology

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  • ORAL

    Publication: K. S. Kabir, K. Singhal, and A. Semnani, "The effect of frequency on chemical species of EVA cavity-based microwave plasma jets," IEEE Transactions on Plasma Science. (to be submitted)

    M. R. Akram and A. Semnani, "An energy-efficient atmospheric plasma jet line based on a dielectric microwave anapole source," IEEE Transactions on Plasma Science. (under review)

    K. S. Kabir and A. Semnani, "Capacitive-tuned SIW evanescent-mode cavity for resonant microwave plasma jet," IEEE Transactions on Microwave Theory and Techniques. (early access)

    M. R. Akram and A. Semnani, "Non-radiating resonances: anapoles enabling highly efficient plasma jets within dielectric structures," IEEE Transactions on Microwave Theory and Techniques, vol. 73, no. 1, pp. 352-360, January 2025.

    M. R. Akram and A. Semnani, "A microwave anapole source based on electric dipole interactions over a low-index dielectric," Physical Review Applied, 21, 054051, 2024.

    A. Semnani and K. S. Kabir, "A highly-efficient microwave plasma jet based on evanescent-mode cavity-resonator technology," IEEE Transactions on Plasma Science, vol. 50, no. 10, pp. 3516-3524, October 2022.

    Presenters

    • Abbas Semnani

      • University of Toledo

    Authors

    • Abbas Semnani

      • University of Toledo

    • Muhammad Rizwan Akram

      • University of Toledo

    • Kushagra Singhal

      • University of Toledo

    • Tahir Azam

      • University of Toledo

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  • ORAL

    Publication: van Impel, H., Steuer, D., der Gathen, V. S. V., Böke, M., & Golda, J. (2025). Analyzing atomic oxygen product evolution in Micro Cavity Plasma Arrays by a combination of a Multi-PMT OES Setup and a 0-D Chemical Model. arXiv preprint arXiv:2505.10200.

    Presenters

    • Henrik van Impel

      • Plasma Interface Physics, Ruhr University Bochum, Germany

    Authors

    • Henrik van Impel

      • Plasma Interface Physics, Ruhr University Bochum, Germany

    • David Steuer

      • Plasma Interface Physics, Ruhr University Bochum, Germany

    • Volker Schulz-von der Gathen

      • Experimental Physics II - Reactive Plasmas, Ruhr University Bochum, Germany

    • Marc Böke

      • Experimental Physics II - Reactive Plasmas, Ruhr University Bochum, Germany

    • Judith Golda

      • Plasma Interface Physics, Ruhr University Bochum, Germany

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