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Time-resolved imaging of the plasma development in a triggered vacuum switch

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Abstract

Triggered vacuum switches (TVS) are particularly used in pulsed power technology as closing switches for high voltages and high charge transfer. A non-sealed-off prototype was designed with a side-on quartz window to investigate the evolution of the trigger discharge into the main discharge. The image acquisition was done with a fast CCD camera PI-MAX2 from Princeton Instruments. The CCD camera has a maximum exposure time of 2 ns. The electrode configuration of the prototype is a conventional six-rod gap type, a capacitor bank with C = 16.63 μF, which corresponds at 20 kV charging voltage to a total stored charge of 0.3 C or a total energy of 3.3 kJ. The peak current is 88 kA. According to the tremendously highly different light intensities during the trigger and main discharge, the complete discharge is split into three phases: a trigger breakdown phase, an intermediate phase and a main discharge phase. The CCD camera images of the first phase show instabilities of the trigger breakdown, in phase 2 three different discharge modes are observed. After the first current maximum the discharge behavior is reproducible.

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Authors and Affiliations

  1. Pohang Accelerator Laboratory, Pohang University of Science and Technology, Pohang, 37673, Korea

    Wung-Hoa Park, Moo-Sang Kim, Yoon-Kyoo Son, Klaus Frank & Byung-Joon Lee

  2. Department of Applied Physics, Wolfgang - Goethe University, Frankfurt D, 60438, Germany

    Thilo Ackerman & Marcus Iberler

Authors
  1. Wung-Hoa Park
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  2. Moo-Sang Kim
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  3. Yoon-Kyoo Son
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  4. Klaus Frank
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  5. Byung-Joon Lee
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  6. Thilo Ackerman
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  7. Marcus Iberler
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Correspondence to Wung-Hoa Park.

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Park, WH., Kim, MS., Son, YK. et al. Time-resolved imaging of the plasma development in a triggered vacuum switch. Journal of the Korean Physical Society 71, 855–860 (2017). https://doi.org/10.3938/jkps.71.855

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  • DOI: https://doi.org/10.3938/jkps.71.855

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