Abstract:
Large earthquakes can induce near and far-field ionospheric perturbations by direct/secondary acoustic
and gravity waves through Lithosphere–Atmosphere–Ionosphere (LAI) coupling. We analyze co-seismic
induced ionospheric TEC perturbations following the northern Chile Mw 8.1 Pisagua earthquake occurred
on April 1, 2014. The continuous Global Positioning System (GPS) data at 15 sites from the Integrated
Plate Boundary Observatory Chile (IPOC) and International GPS Service (IGS) GPS networks have been
used in the present study. The nearest GPS site iqqe, 98 km away from the epicenter, recorded the
ionospheric disturbance 12 min after the event. The maximum co-seismic induced peak-to-peak TEC
amplitude is 1.25 TECU (1TECU¼1016 electrons/m2
), and the perturbations are confined to less than
1000 km radius around the epicenter. The observed horizontal velocity of TEC perturbations has been
determined as 1180 m/s. We could also discern the signatures of acoustic gravity waves (AGW) with
velocity 650 m/s and frequency 2 mHz. The ionospheric signal components due to Rayleigh and/or
Tsunami waves could not be observed. This contribution presents characteristics of near-field co-seismic
ionospheric response due to the 2014 Pisagua earthquake.