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Radio Interferometer Observations of an Energetic in-Cloud Pulse Reveal Large Currents Generated by Relativistic Discharges

Publication ,  Journal Article
Tilles, JN; Krehbiel, PR; Stanley, MA; Rison, W; Liu, N; Lyu, F; Cummer, SA; Dwyer, JR; Senay, S; Edens, H; Fan, X; Brown, RG; Wilson, J
Published in: Journal of Geophysical Research: Atmospheres
October 27, 2020

The production mechanism for terrestrial gamma ray flashes (TGFs) is not entirely understood, and details of the corresponding lightning activity and thunderstorm charge structure have yet to be fully characterized. Here we examine sub-microsecond VHF (14–88 MHz) radio interferometer observations of a 247-kA peak-current EIP, or energetic in-cloud pulse, a reliable radio signature of a subset of TGFs. The EIP consisted of three high-amplitude sferic pulses lasting ≃60 μs in total, which peaked during the second (main) pulse. The EIP occurred during a normal-polarity intracloud lightning flash that was highly unusual, in that the initial upward negative leader was particularly fast propagating and discharged a highly concentrated region of upper-positive storm charge. The flash was initiated by a high-power (46 kW) narrow bipolar event (NBE), and the EIP occurred about 3 ms later after ≃3 km upward flash development. The EIP was preceded ≃200 μs by a fast 6 × 106 m/s upward negative breakdown and immediately preceded and accompanied by repeated sequences of fast (107–108 m/s) downward then upward streamer events each lasting 10 to 20 μs, which repeatedly discharged a large volume of positive charge. Although the repeated streamer sequences appeared to be a characteristic feature of the EIP and were presumably involved in initiating it, the EIP sferic evolved independently of VHF-producing activity, supporting the idea that the sferic was produced by relativistic discharge currents. Moreover, the relativistic currents during the main sferic pulse initiated a strong NBE-like event comparable in VHF power (115 kW) to the highest-power NBEs.

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Published In

Journal of Geophysical Research: Atmospheres

DOI

EISSN

2169-8996

ISSN

2169-897X

Publication Date

October 27, 2020

Volume

125

Issue

20

Related Subject Headings

  • 3702 Climate change science
  • 3701 Atmospheric sciences
  • 0406 Physical Geography and Environmental Geoscience
  • 0401 Atmospheric Sciences
 

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MLA
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Tilles, J. N., Krehbiel, P. R., Stanley, M. A., Rison, W., Liu, N., Lyu, F., … Wilson, J. (2020). Radio Interferometer Observations of an Energetic in-Cloud Pulse Reveal Large Currents Generated by Relativistic Discharges. Journal of Geophysical Research: Atmospheres, 125(20). https://doi.org/10.1029/2020JD032603
Tilles, J. N., P. R. Krehbiel, M. A. Stanley, W. Rison, N. Liu, F. Lyu, S. A. Cummer, et al. “Radio Interferometer Observations of an Energetic in-Cloud Pulse Reveal Large Currents Generated by Relativistic Discharges.” Journal of Geophysical Research: Atmospheres 125, no. 20 (October 27, 2020). https://doi.org/10.1029/2020JD032603.
Tilles JN, Krehbiel PR, Stanley MA, Rison W, Liu N, Lyu F, et al. Radio Interferometer Observations of an Energetic in-Cloud Pulse Reveal Large Currents Generated by Relativistic Discharges. Journal of Geophysical Research: Atmospheres. 2020 Oct 27;125(20).
Tilles, J. N., et al. “Radio Interferometer Observations of an Energetic in-Cloud Pulse Reveal Large Currents Generated by Relativistic Discharges.” Journal of Geophysical Research: Atmospheres, vol. 125, no. 20, Oct. 2020. Scopus, doi:10.1029/2020JD032603.
Tilles JN, Krehbiel PR, Stanley MA, Rison W, Liu N, Lyu F, Cummer SA, Dwyer JR, Senay S, Edens H, Fan X, Brown RG, Wilson J. Radio Interferometer Observations of an Energetic in-Cloud Pulse Reveal Large Currents Generated by Relativistic Discharges. Journal of Geophysical Research: Atmospheres. 2020 Oct 27;125(20).

Published In

Journal of Geophysical Research: Atmospheres

DOI

EISSN

2169-8996

ISSN

2169-897X

Publication Date

October 27, 2020

Volume

125

Issue

20

Related Subject Headings

  • 3702 Climate change science
  • 3701 Atmospheric sciences
  • 0406 Physical Geography and Environmental Geoscience
  • 0401 Atmospheric Sciences