Title :
Effects of the chelyabinsk meteoroid entry at the ionosphere
Author :
Ruzhin, Yu.Ya. ; Kuznetsov, V.D. ; Smirnov, V.M.
Author_Institution :
Pushkov Inst. of Terrestrial Magn., Ionosphere & Radio Wave Propagation, Troitsk, Russia
Abstract :
The transionospheric sounding by signals from the GPS cluster satellites carried out in the zone of explosion of the Chelyabinsk bolid has shown that the explosion had a very weak effect on the ionosphere. The observed ionosphere disturbances were asymmetric with respect to the explosion epicenter. The signals obtained were compared both in shape and in amplitude with the known Earth surface explosions. Ionosphere effects in the form of acoustic-gravity waves (AGW) produced by 260-500 tons TNT explosions on the ground are detected with confidence both by vertical sounding and by GPS techniques. This allows us to suggest that the reported equivalent of the meteoroid explosion was obviously overestimated.
Keywords :
Global Positioning System; acoustic waves; gravity waves; ionospheric disturbances; meteoroids; AGW; Chelyabinsk bolid explosion zone; Chelyabinsk meteoroid ionosphere entry effect; Earth surface explosion amplitude; Earth surface explosion shape; GPS cluster satellite signal; GPS technique; acoustic-gravity wave; asymmetric ionosphere disturbance; explosion epicenter; explosion very weak ionosphere effect; ground TNT explosion; meteoroid explosion equivalent; transionospheric sounding; vertical sounding; Atmosphere; Explosions; Global Positioning System; Ionosphere; Satellite broadcasting; Satellites; Shape;
Conference_Titel :
General Assembly and Scientific Symposium (URSI GASS), 2014 XXXIth URSI
Conference_Location :
Beijing
DOI :
10.1109/URSIGASS.2014.6929867
