First Detection of Global Ionospheric Disturbances Associated with the Most Powerful Gamma Ray Burst GRB221009A

First Detection of Global Ionospheric Disturbances Associated with the Most Powerful Gamma Ray Burst GRB221009A

We present the first report of global ionospheric disturbances due to the most powerful Gamma Ray Burst GRB221009A occurred on 9 October 2022. Very Low Frequency (VLF) and Low Frequency (LF) sub-ionospheric radio signals are used to diagnose the effect of the GRB on the lower ionosphere. Both daytim...

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Veröffentlicht in:Atmosphere 2023-01, Vol.14 (2), p.217
Hauptverfasser: Pal, Sujay, Hobara, Yasuhide, Shvets, Alexander, Schnoor, Peter Wilhelm, Hayakawa, Masashi, Koloskov, Oleksandr
Format: Artikel
Sprache:eng
Schlagworte:
Brightest Gamma Ray Burst
D region
Daytime
E region
Environmental aspects
Gamma ray bursts
Gamma rays
Global Ionospheric Disturbance
GRB221009A
Ionosphere
Ionospheric disturbances
Low frequency
Lower ionosphere
Night
Night-time
Nighttime
Observations
Perturbation
Propagation
Radiation
Radio
Radio signals
Radio waves
Receivers & amplifiers
Satellites
Venus
Very Low Frequencies
VLF/LF radio signals
Wave propagation
X-rays
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Zusammenfassung:We present the first report of global ionospheric disturbances due to the most powerful Gamma Ray Burst GRB221009A occurred on 9 October 2022. Very Low Frequency (VLF) and Low Frequency (LF) sub-ionospheric radio signals are used to diagnose the effect of the GRB on the lower ionosphere. Both daytime and nighttime effects are analyzed in VLF and LF bands. The magnitude of VLF signal perturbations varied with the propagation condition (day/night), path length, and frequency of the signal. The recovery times for the VLF/LF signals to get back to their pre-GRB levels varied from 2–60 min. Radio signals reflected from the E-region ionosphere for nighttime VLF signals and daytime LF signals showed greater effects compared to the daytime VLF signals reflected from the lower parts of the D-region.
ISSN:2073-4433
2073-4433
DOI:10.3390/atmos14020217