Optical emissions associated with narrow bipolar events from thunderstorm clouds penetrating into the stratosphere

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

doi:10.1038/s41467-021-26914-4

Optical emissions associated with narrow bipolar events from thunderstorm clouds penetrating into the stratosphere

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^*

^*Corresponding author for this work

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Abstract

Narrow bipolar events (NBEs) are signatures in radio signals from thunderstorms observed by ground-based receivers. NBEs may occur at the onset of lightning, but the discharge process is not well understood. Here, we present spectral measurements by the Atmosphere-Space Interactions Monitor (ASIM) on the International Space Station that are associated with nine negative and three positive NBEs observed by a ground-based array of receivers. We found that both polarities NBEs are associated with emissions at 337 nm with weak or no detectable emissions at 777.4 nm, suggesting that NBEs are associated with streamer breakdown. The rise times of the emissions for negative NBEs are about 10 μs, consistent with source locations at cloud tops where photons undergo little scattering by cloud particles, and for positive NBEs are ~1 ms, consistent with locations deeper in the clouds. For negative NBEs, the emission strength is almost linearly correlated with the peak current of the associated NBEs. Our findings suggest that ground-based observations of radio signals provide a new means to measure the occurrences and strength of cloud-top discharges near the tropopause.

Original language	English
Article number	6631
Journal	Nature Communications
Volume	12
Issue number	1
Number of pages	8
ISSN	2041-1723
DOIs	https://doi.org/10.1038/s41467-021-26914-4
Publication status	Published - 2021

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title = "Optical emissions associated with narrow bipolar events from thunderstorm clouds penetrating into the stratosphere",

abstract = "Narrow bipolar events (NBEs) are signatures in radio signals from thunderstorms observed by ground-based receivers. NBEs may occur at the onset of lightning, but the discharge process is not well understood. Here, we present spectral measurements by the Atmosphere-Space Interactions Monitor (ASIM) on the International Space Station that are associated with nine negative and three positive NBEs observed by a ground-based array of receivers. We found that both polarities NBEs are associated with emissions at 337 nm with weak or no detectable emissions at 777.4 nm, suggesting that NBEs are associated with streamer breakdown. The rise times of the emissions for negative NBEs are about 10 μs, consistent with source locations at cloud tops where photons undergo little scattering by cloud particles, and for positive NBEs are ~1 ms, consistent with locations deeper in the clouds. For negative NBEs, the emission strength is almost linearly correlated with the peak current of the associated NBEs. Our findings suggest that ground-based observations of radio signals provide a new means to measure the occurrences and strength of cloud-top discharges near the tropopause.",

author = "Feifan Liu and Gaopeng Lu and Torsten Neubert and Jiuhou Lei and Oliver Chanrion and Nikolai {\O}stgaard and Dongshuai Li and Alejandro Luque and Gordillo-V{\'a}zquez, {Francisco J} and Victor Reglero and Weitao Lyu and Baoyou Zhu",

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T1 - Optical emissions associated with narrow bipolar events from thunderstorm clouds penetrating into the stratosphere

AU - Liu, Feifan

AU - Lu, Gaopeng

AU - Neubert, Torsten

AU - Lei, Jiuhou

AU - Chanrion, Oliver

AU - Østgaard, Nikolai

AU - Li, Dongshuai

AU - Luque, Alejandro

AU - Gordillo-Vázquez, Francisco J

AU - Reglero, Victor

AU - Lyu, Weitao

AU - Zhu, Baoyou

PY - 2021

Y1 - 2021

N2 - Narrow bipolar events (NBEs) are signatures in radio signals from thunderstorms observed by ground-based receivers. NBEs may occur at the onset of lightning, but the discharge process is not well understood. Here, we present spectral measurements by the Atmosphere-Space Interactions Monitor (ASIM) on the International Space Station that are associated with nine negative and three positive NBEs observed by a ground-based array of receivers. We found that both polarities NBEs are associated with emissions at 337 nm with weak or no detectable emissions at 777.4 nm, suggesting that NBEs are associated with streamer breakdown. The rise times of the emissions for negative NBEs are about 10 μs, consistent with source locations at cloud tops where photons undergo little scattering by cloud particles, and for positive NBEs are ~1 ms, consistent with locations deeper in the clouds. For negative NBEs, the emission strength is almost linearly correlated with the peak current of the associated NBEs. Our findings suggest that ground-based observations of radio signals provide a new means to measure the occurrences and strength of cloud-top discharges near the tropopause.

AB - Narrow bipolar events (NBEs) are signatures in radio signals from thunderstorms observed by ground-based receivers. NBEs may occur at the onset of lightning, but the discharge process is not well understood. Here, we present spectral measurements by the Atmosphere-Space Interactions Monitor (ASIM) on the International Space Station that are associated with nine negative and three positive NBEs observed by a ground-based array of receivers. We found that both polarities NBEs are associated with emissions at 337 nm with weak or no detectable emissions at 777.4 nm, suggesting that NBEs are associated with streamer breakdown. The rise times of the emissions for negative NBEs are about 10 μs, consistent with source locations at cloud tops where photons undergo little scattering by cloud particles, and for positive NBEs are ~1 ms, consistent with locations deeper in the clouds. For negative NBEs, the emission strength is almost linearly correlated with the peak current of the associated NBEs. Our findings suggest that ground-based observations of radio signals provide a new means to measure the occurrences and strength of cloud-top discharges near the tropopause.

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DO - 10.1038/s41467-021-26914-4

M3 - Journal article

C2 - 34789752

SN - 2041-1723

VL - 12

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6631

ER -

Optical emissions associated with narrow bipolar events from thunderstorm clouds penetrating into the stratosphere

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