TGFs, Gamma‐Ray Glows, and Direct Lightning Strike Radiation Observed During a Single Flight of a Balloon‐Borne Gamma‐Ray Spectrometer

Helmerich, Christopher; McKinney, Todd; Cavanaugh, Everett; Dangelo, Sarah

doi:10.1029/2023ea003317

Earth and Space Science

2024

DOI: 10.1029/2023ea003317

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TGFs, Gamma‐Ray Glows, and Direct Lightning Strike Radiation Observed During a Single Flight of a Balloon‐Borne Gamma‐Ray Spectrometer

Christopher Helmerich,

Todd McKinney,

Everett Cavanaugh

et al.

Abstract: Terrestrial gamma‐ray flashes (TGFs) and other high‐energy radiation phenomena related to thunderstorms remain incompletely understood since their discovery nearly 30 years ago. Space and ground‐based platforms have provided insights, but limitations exist in temporal resolution, signal‐to‐noise ratios, and proximity to events. This study presents findings from a balloon‐borne gamma‐ray spectrometer flown into a thunderstorm over northern Mississippi on 19 June 2023. The instrument detected three distinct mill… Show more

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High latitude observations of Terrestrial Gamma-Ray Glow in Finland with spectroscopic radiation detectors

Leppänen,

Peräjärvi,

Paatero

et al. 2024

Preprint

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Terrestrial Gamma Glow (TGG) was detected for the first time in high latitudes outside the latitudinal band of ± 38° where Terrestrial Gamma Flashes (TGF) are typically observed. This study reports the observations of a TGG events that occurred in Southern Finland at the municipality of Vantaa (60° 18’ N 24° 58’ E at 55 m a.m.s.l) on May 17th, 2020 between 10:15 and 10:30 UTC. Three independently measuring units of NaI(Tl) γ spectrometers were used when a thundercloud emitting the γ radiation passed over or near the location of the detectors. The events occurred when a storm front moved across the Helsinki region in Finland in a roughly northeast direction. Two separate the γ radiation enhancements were observed. The first event lasted 52 s. and produced an increase in γ radiation of about 7 -12 %, after a break of about 85 -100 s., a second event occurred lasting about 100 s increasing the γ radiation by 20-50 % during the 10-second collection time. The exact locations of the thunderclouds emitting the γ radiation were not known and it is possible that the first event occurred farther away from the detectors and was hence seen as a weaker enhancement. The horizontal size was estimated by using the average wind speed and the duration of the second enhancement. The size estimate was around 400-500 m with maximum upper limit of 1000 m. In the second enhancement most visible increase in the γ radiation was in the 100 keV - ~800 keV energy range where a uniform increase was observed. In addition, a clear enhancement in the high energy γ rays, with energies from 3000 keV up to the maximum of the detector system of 8900 keV, was also observed. The presence of high energy γ rays is a clear signals of a TGG event. The shape of the background subtracted γ spectrum has a power law shape and agreed well with that of a predicted photon spectrum produced by a Runaway Relativistic Electron Avalanche.

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High latitude observations of Terrestrial Gamma-Ray Glow in Finland with spectroscopic radiation detectors

Leppänen,

Peräjärvi,

Paatero

et al. 2024

Preprint

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TGFs, Gamma‐Ray Glows, and Direct Lightning Strike Radiation Observed During a Single Flight of a Balloon‐Borne Gamma‐Ray Spectrometer

Cited by 1 publication

References 68 publications

High latitude observations of Terrestrial Gamma-Ray Glow in Finland with spectroscopic radiation detectors

High latitude observations of Terrestrial Gamma-Ray Glow in Finland with spectroscopic radiation detectors

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