Atmospheric Pressure Plasma Jets and Sources

FOCUS · GF2 · ID: 2480786

Presentations

  • ORAL

    Presenters

    • Tim Bolles

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

    Authors

    • Tim Bolles

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

    • Mate Vass

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

    • Ihor Korolov

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

    • Denis Seletskiy

      • Department of Engineering Physics, Polytechnique Montréal, Montréal, Canada

    • Stephan Reuter

      • Polytechnique Montréal
      • Department of Engineering Physics,
      • Department of Engineering Physics, Polytechnique Montréal, Montréal, Canada

    • Thomas Mussenbrock

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

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  • ORAL

    Publication: He Y. et al, 2024, Zero-dimensional simulations of DC ns-pulsed plasma jet in N2 at near atmospheric pressure: validation of the vibrational kinetics, submitted to PSST

    Presenters

    • Efe Kemaneci

      • Ruhr Uni Bochum

    Authors

    • Youfan He

      • Ruhr-University Bochum

    • Ralf Peter Brinkmann

      • Ruhr Univ Bochum
      • Ruhr University Bochum

    • Andrew R Gibson

      • Ruhr University Bochum, Germany

    • Efe Kemaneci

      • Ruhr Uni Bochum

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  • ORAL · Invited

    Publication: 1. Johnson, M.J. and Go, D.B., 2015. Piezoelectric transformers for low-voltage generation of gas discharges and ionic winds in atmospheric air. Journal of Applied Physics, 118(24), p.243304.
    2. Johnson, M.J. and Go, D.B., 2016. Impingement cooling using the ionic wind generated by a low-voltage piezoelectric transformer. Frontiers in Mechanical Engineering, 2, p.7.
    3. Yang, J., Im, S.K. and Go, D.B., 2020. Time-resolved characterization of a free plasma jet formed off the surface of a piezoelectric crystal. Plasma Sources Science and Technology, 29(4), p.045016.
    4. Johnson, M.J., Linczer, J. and Go, D.B., 2014. Thermally induced atmospheric pressure gas discharges using pyroelectric crystals. Plasma Sources Science and Technology, 23(6), p.065018.
    5. Jaenicke, O.K., Hita Martínez, F.G., Yang, J., Im, S.K. and Go, D.B., 2020. Hand-generated piezoelectric mechanical-to-electrical energy conversion plasma. Applied Physics Letters, 117(9), p.093901.

    Presenters

    • David B Go

      • University of Notre Dame
      • Department of Aerospace and Mechanical Engineering, University of Notre Dame, Notre Dame, Indiana 46556 United States

    Authors

    • David B Go

      • University of Notre Dame
      • Department of Aerospace and Mechanical Engineering, University of Notre Dame, Notre Dame, Indiana 46556 United States

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  • ORAL

    Publication: We have planned one paper out of these results.

    Presenters

    • Abhijit Mishra

      • Indian Institute of Technology Jodhpur

    Authors

    • Abhijit Mishra

      • Indian Institute of Technology Jodhpur

    • Shikha Pandey

      • Indian Institute of Technology Jodhpur

    • Yasir H Siddiqui

      • Indian Institute of Technology Jodhpur

    • Ram Prakash

      • Indian Institute of Technology Jodhpur

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  • ORAL

    Presenters

    • Inna Orel

      • Ruhr University Bochum, Faculty of Physics and Astronomy

    Authors

    • Inna Orel

      • Ruhr University Bochum, Faculty of Physics and Astronomy

    • Nikita D. Lepikhin

      • Ruhr University Bochum, Faculty of Physics and Astronomy

    • Zoltan Donko

      • Wigner Research Center for Physics
      • Institute for Solid State Physics and Optics HUN-REN Wigner Research Centre for Physics, Budapest, Hungary
      • Wigner Research Center

    • Dirk Luggenhölscher

      • Ruhr University Bochum, Faculty of Physics and Astronomy

    • Uwe Czarnetzki

      • Ruhr-University Bochum, Faculty of Physics and Astronomy
      • Ruhr University Bochum

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  • ORAL

    Publication: [1] 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.
    [2] M. R. Akram and A. Semnani, "A highly-efficient 2.45 GHz plasma jet based on a dielectric microwave anapole structure," IEEE International Microwave Symposium (IMS), Washington, DC, 2024.

    Presenters

    • Abbas Semnani

      • University of Toledo

    Authors

    • Abbas Semnani

      • University of Toledo

    • Kazi Sadman S Kabir

      • The University of Toledo, Toledo, Ohio

    • Muhammad Rizwan Akram

      • University of Toledo

    • Kushagra Singhal

      • University Of Toledo

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  • ORAL

    Publication: [1] 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, Oct. 2022, doi: 10.1109/TPS.2022.3202509.

    [2] K. S. Kabir and A. Semnani, "A Power-Efficient Microwave Micro plasma Jet Utilizing an SIW Evanescent-Mode Cavity Resonator," in 2023 IEEE/MTT-S International Microwave Symposium - IMS 2023, Jun. 2023, pp. 648–651. doi: 10.1109/IMS37964.2023.10188060.

    Presenters

    • Kushagra Singhal

      • University Of Toledo

    Authors

    • Kushagra Singhal

      • University Of Toledo

    • Kazi Sadman S Kabir

      • The University of Toledo, Toledo, Ohio

    • Abbas Semnani

      • University of Toledo

    View abstract →