Multi-instrument observations of various ionospheric disturbances caused
by the 6 February 2023 Turkey earthquake
- Haris Haralambous
, - Marco Guerra,
- Jaroslav Chum,
- Tobias G.W. Verhulst,
- Veronika Barta,
- David Altadill,
- Claudio Cesaroni,
- Ivan Galkin,
- Kiszely Márta,
- Jens Mielich,
- Daniel Kouba,
- D. Buresova,
- A. Segarra,
- Luca Spogli,
- Jan Rusz,
- Jan Zedník
Marco Guerra
1) Istituto Nazionale di Geofisica e Vulcanologia, Rome, Italy , 2) Sapienza Università di Roma
Author ProfileTobias G.W. Verhulst
Royal Meteorological Institute (RMI)
Author ProfileVeronika Barta
Research Centre for Astronomy and Earth Sciences, Geodetic and Geophysical Institute
Author ProfileClaudio Cesaroni
Istituto Nazionale di Geofisica e Vulcanologia
Author ProfileKiszely Márta
Kövesligethy Radó Seismological Observatory, Institute of Earth Physics and Space Science
Author ProfileJens Mielich
Leibniz-Institute of Atmospheric Physics (LG)
Author ProfileDaniel Kouba
Institute of Atmospheric Physics Academy of Sciences of the Czech Republic
Author ProfileD. Buresova
Institute of Atmospheric Physics, Prague, Czech Republic
Author ProfileLuca Spogli
Istituto Nazionale di Geofisica e Vulcanologia
Author ProfileJan Zedník
Institute of Geophysics Czech Academy of Sciences
Author ProfileAbstract
In this work, we investigate various types of ionospheric disturbances
observed over Europe after the earthquake in Turkey on 6 February
2023.By combining observations from Doppler sounding systems,
ionosondes, and GNSS receivers, we are able to discern different types
of disturbances, propagating with different velocities and through
different mechanisms. We can detect the co-seismic disturbances produced
in the ionosphere close to the epicenter, as well the ionospheric
signatures of acoustic waves propagating as a consequence of propagating
seismic waves.13 May 2023Submitted to ESS Open Archive 25 May 2023Published in ESS Open Archive
