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Fast negative breakdown in thunderstorms

Author

Listed:
  • Julia N. Tilles

    (University of New Hampshire)

  • Ningyu Liu

    (University of New Hampshire)

  • Mark A. Stanley

    (Langmuir Laboratory for Atmospheric Research, New Mexico Tech)

  • Paul R. Krehbiel

    (Langmuir Laboratory for Atmospheric Research, New Mexico Tech)

  • William Rison

    (Langmuir Laboratory for Atmospheric Research, New Mexico Tech)

  • Michael G. Stock

    (Earth Networks)

  • Joseph R. Dwyer

    (University of New Hampshire)

  • Robert Brown

    (NASA)

  • Jennifer Wilson

    (NASA)

Abstract

Thunderstorms are natural laboratories for studying electrical discharges in air, where the vast temporal, spatial, and energy scales available can spawn surprising phenomena that reveal deficiencies in our understanding of dielectric breakdown. Recent discoveries, such as sprites, jets, terrestrial gamma ray flashes, and fast positive breakdown, highlight the diversity of complex phenomena that thunderstorms can produce, and point to the possibility for electrical breakdown/discharge mechanisms beyond dielectric breakdown theory based mainly on laboratory experiments. Here we present one such confounding discovery, termed fast negative breakdown, that does not fit with our current understanding of dielectric breakdown. Our adaptation of radio astronomy imaging techniques to study extremely transient lightning-associated events confirms that electrical breakdown in thunderstorms can begin with oppositely-directed fast breakdown of negative polarity, similar and in addition to fast positive breakdown expected from conventional dielectric theory and recent observations. The discovery of fast negative breakdown calls for an addendum to the physical description of electrical discharges in air.

Suggested Citation

  • Julia N. Tilles & Ningyu Liu & Mark A. Stanley & Paul R. Krehbiel & William Rison & Michael G. Stock & Joseph R. Dwyer & Robert Brown & Jennifer Wilson, 2019. "Fast negative breakdown in thunderstorms," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09621-z
    DOI: 10.1038/s41467-019-09621-z
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    Cited by:

    1. Feifan Liu & Torsten Neubert & Olivier Chanrion & Gaopeng Lu & Ting Wu & Fanchao Lyu & Weitao Lyu & Christoph Köhn & Dongshuai Li & Baoyou Zhu & Jiuhou Lei, 2024. "Polarity transitions of narrow bipolar events in thundercloud tops reaching the lower stratosphere," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    2. Feifan Liu & Gaopeng Lu & Torsten Neubert & Jiuhou Lei & Oliver Chanrion & Nikolai Østgaard & Dongshuai Li & Alejandro Luque & Francisco J. Gordillo-Vázquez & Victor Reglero & Weitao Lyu & Baoyou Zhu, 2021. "Optical emissions associated with narrow bipolar events from thunderstorm clouds penetrating into the stratosphere," Nature Communications, Nature, vol. 12(1), pages 1-8, December.

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