Employing optical lightning data to identify lightning flashes associated to terrestrial gamma-ray flashes

Autor: Köhn, Christoph, Heumesser, Matthias, Chanrion, Olivier, Reglero, Victor, Østgaard, Nikolai, Christian, H. J., Lang, T. J., Blakeslee, R. J., Neubert, Torsten
Zdroj: Bulletin of Atmospheric Science and Technology; December 2024, Vol. 5 Issue: 1
Abstrakt: Terrestrial gamma-ray flashes (TGFs) are bursts of energetic X- and gamma-rays emitted from thunderstorms. The Atmosphere-Space Interactions Monitor (ASIM) mounted onto the International Space Station (ISS) is dedicated to measure TGFs and optical signatures of lightning; ISS LIS (Lightning Imaging Sensor) detects lightning flashes allowing for simultaneous measurements with ASIM. Whilst ASIM measures ∼300-400 TGFs per year, ISS LIS detects ∼106annual lightning flashes giving a disproportion of four orders of magnitude. Based on the temporal evolution of lightning flashes and the spatial pattern of the constituing events, we present an algorithm to reduce the number of space-detected flashes potentially associated with TGFs by ∼60% and of associated LIS groups by ∼95%. We use ASIM measurements to confirm that the resulting flashes are indeed those associated with TGFs detected at approx. 400 km altitude and thus benchmark our algorithm preserving 70–80% of TGFs from concurrent ASIM-LIS measurements. We compare how the radiance, footprint size and the global distribution of lightning flashes of the reduced set relates to the average of all measured lightning flashes and do not observe any significant difference. Finally, we present a parameter study of our algorithm and discuss which parameters can be tweaked to maximize the reduction efficiency whilst keeping flashes associated to TGFs. In the future, this algorithm will hence be capable of facilitating the search for TGFs in a reduced set of lightning flashes measured from space.
Databáze: Supplemental Index