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Literature DB >> 17780850

Discovery of intense gamma-ray flashes of atmospheric origin.

G J Fishman, P N Bhat, R Mallozzi, J M Horack, T Koshut, C Kouveliotou, G N Pendleton, C A Meegan, R B Wilson, W S Paciesas, S J Goodman, H J Christian.

Abstract

Detectors aboard the Compton Gamma Ray Observatory have observed an unexplained terrestrial phenomenon: brief, intense flashes of gamma rays. These flashes must originate in the atmosphere at altitudes above at least 30 kilometers in order to escape atmospheric absorption and reach the orbiting detectors. At least a dozen such events have been detected over the past 2 years. The photon spectra from the events are very hard (peaking in the high-energy portion of the spectrum) and are consistent with bremsstrahlung emission from energetic (million-electron volt) electrons. The most likely origin of these high-energy electrons, although speculative at this time, is a rare type of high-altitude electrical discharge above thunderstorm regions.

Entities: Species

Year: 1994 PMID： 17780850 DOI： 10.1126/science.264.5163.1313

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

Keyword Cloud
Cited

17 in total

1. Photonuclear reactions triggered by lightning discharge.

Authors: Teruaki Enoto; Yuuki Wada; Yoshihiro Furuta; Kazuhiro Nakazawa; Takayuki Yuasa; Kazufumi Okuda; Kazuo Makishima; Mitsuteru Sato; Yousuke Sato; Toshio Nakano; Daigo Umemoto; Harufumi Tsuchiya
Journal: Nature Date: 2017-11-22 Impact factor: 49.962

2. Thunderstorms Producing Sferic-Geolocated Gamma-Ray Flashes Detected by TETRA-II.

Authors: Deirdre Smith; Jill Trepanier; Samer T Alnussirat; Michael L Cherry; Marc D Legault; Donald J Pleshinger
Journal: J Geophys Res Atmos Date: 2021-07-27 Impact factor: 5.217

3. An altitude and distance correction to the source fluence distribution of TGFs.

Authors: R S Nisi; N Østgaard; T Gjesteland; A B Collier
Journal: J Geophys Res Space Phys Date: 2014-10-30 Impact factor: 2.811

4. TETRA observation of gamma-rays at ground level associated with nearby thunderstorms.

Authors: Rebecca Ringuette; Gary L Case; Michael L Cherry; Douglas Granger; T Gregory Guzik; Michael Stewart; John P Wefel
Journal: J Geophys Res Space Phys Date: 2013-12-06 Impact factor: 2.811

5. Modeling the relativistic runaway electron avalanche and the feedback mechanism with GEANT4.

Authors: Alexander Broberg Skeltved; Nikolai Østgaard; Brant Carlson; Thomas Gjesteland; Sebastien Celestin
Journal: J Geophys Res Space Phys Date: 2014-11-03 Impact factor: 2.811

6. Enhanced detection of terrestrial gamma-ray flashes by AGILE.

Authors: M Marisaldi; A Argan; A Ursi; T Gjesteland; F Fuschino; C Labanti; M Galli; M Tavani; C Pittori; F Verrecchia; F D'Amico; N Østgaard; S Mereghetti; R Campana; P W Cattaneo; A Bulgarelli; S Colafrancesco; S Dietrich; F Longo; F Gianotti; P Giommi; A Rappoldi; M Trifoglio; A Trois
Journal: Geophys Res Lett Date: 2015-11-06 Impact factor: 4.720

Discovery of intense gamma-ray flashes of atmospheric origin.

1. Photonuclear reactions triggered by lightning discharge.

2. Thunderstorms Producing Sferic-Geolocated Gamma-Ray Flashes Detected by TETRA-II.

3. An altitude and distance correction to the source fluence distribution of TGFs.

4. TETRA observation of gamma-rays at ground level associated with nearby thunderstorms.

5. Modeling the relativistic runaway electron avalanche and the feedback mechanism with GEANT4.

6. Enhanced detection of terrestrial gamma-ray flashes by AGILE.

7. Relativistic electrons from sparks in the laboratory.

8. Observation of intrinsically bright terrestrial gamma ray flashes from the Mediterranean basin.

9. Electron acceleration during streamer collisions in air.

10. Radio emissions from double RHESSI TGFs.