Add to ORKGThe devastating megathrust earthquake of December 26 2004 off the west coast of northern Sumatra has been probably the largest since the 1960 Chile event. The occurrence of this event revived the debate, among the scientific community, upon several open geophysical problems possibly connected with the energy release of giant earthquakes. One of these problems concerns the origin of geomagnetic jerks and its eventual relationship with large seismic activity. Though a final answer to this question seems not to be at hand presently, this answer (whatever positive or negative) appears to be connected with the possibility that giant seismic events could cause significant changes in the CMB topography. Until now, no attempts have been made to com...
Nature, v. 440, n. 7080, p. 46-51, 2006. http://dx.doi.org/10.1038/nature04522International audience...
Polar motion is modelled for the large 2004 Sumatra earthquake via dislocation theory for an incompr...
International audienceThe secular variation of the core field is generally characterized by smooth v...
The devastating megathrust earthquake of December 26 2004 off the west coast of northern Sumatra has...
Giant earthquakes of exceptional energy release induce large coseismic deformation field, with measu...
The magnetic field observed at the Earth’s surface is not a stationary feature. It is characterized ...
Characterization of the global impact of 2004 Sumatra earthquake event through the investigation of ...
The Sumatra–Andaman earthquake of 26 December 2004 is the first giant earthquake (moment magnitude M...
none5noBy means of a Monte Carlo simulation, we explored the extent to which large earthquakes may i...
We thank M. Dumberry for providing the opportunity to discuss further the article [Florindo et al....
The historic record of large megathrust earthquakes suggests that the potential for great destructiv...
We analyse temporal variation of crustal deformation derived from Global Positioning System (GPS) me...
Starting with the 2004 Mw 9.2 megathrust event, Southeast Asia has been home to an exceptional amoun...
We analyzed continuous GPS data from more than 20 sites in Asia, Australia and islands in Indian Oce...
Nature, v. 440, n. 7080, p. 46-51, 2006. http://dx.doi.org/10.1038/nature04522International audience...
Polar motion is modelled for the large 2004 Sumatra earthquake via dislocation theory for an incompr...
International audienceThe secular variation of the core field is generally characterized by smooth v...
The devastating megathrust earthquake of December 26 2004 off the west coast of northern Sumatra has...
Giant earthquakes of exceptional energy release induce large coseismic deformation field, with measu...
The magnetic field observed at the Earth’s surface is not a stationary feature. It is characterized ...
Characterization of the global impact of 2004 Sumatra earthquake event through the investigation of ...
The Sumatra–Andaman earthquake of 26 December 2004 is the first giant earthquake (moment magnitude M...
none5noBy means of a Monte Carlo simulation, we explored the extent to which large earthquakes may i...
We thank M. Dumberry for providing the opportunity to discuss further the article [Florindo et al....
The historic record of large megathrust earthquakes suggests that the potential for great destructiv...
We analyse temporal variation of crustal deformation derived from Global Positioning System (GPS) me...
Starting with the 2004 Mw 9.2 megathrust event, Southeast Asia has been home to an exceptional amoun...
We analyzed continuous GPS data from more than 20 sites in Asia, Australia and islands in Indian Oce...
Nature, v. 440, n. 7080, p. 46-51, 2006. http://dx.doi.org/10.1038/nature04522International audience...
Polar motion is modelled for the large 2004 Sumatra earthquake via dislocation theory for an incompr...
International audienceThe secular variation of the core field is generally characterized by smooth v...