Here, we present the source mechanism and rupture process for the destructive 24 January
2020 Mw 6.7 Doğanyol–Sivrice earthquake at the East Anatolian Fault Zone (EAFZ, Turkey) …

How an earthquake rupture propagates strongly influences the potentially destructive
ground shaking. Complex ruptures often involve slip along multiple faults, which masks …

In the past 25 years, space-borne Synthetic Aperture Radar imagery has become an
increasingly available data source for the study of crustal deformation associated with …

SUMMARY A sequence of three strong (M W7. 2, 6.4, 6.6) earthquakes struck the Pamir of
Central Asia in 2015–2017. With a local seismic network, we recorded the succession of the …

The Xianshuihe (XSH) fault on the eastern boundary of the Tibetan plateau is one of the
most active faults in the world. However, the Moxi fault, the southernmost segment of the …

This paper is a brief review of the main recent results obtained by studying fault slip
processes. The published hypotheses and data are analyzed within the approach proposed …

Seismogenic fault geometry, especially for a blind fault, is usually difficult to derive, based
only on the distribution of aftershocks and interference fringes of Interferometric Synthetic …

Located at the northwestern syntaxis of the India‐Asia convergence zone, the Pamir orogen
is characterized by complicated and strong active deformation. Constraining the detailed …

Using E‐W and vertical deformation‐rate maps derived from radar interferometric time‐
series, we analyze the deformation field of an entire orogenic segment, that is, the Tajik …

The M w 6.8 Murghob earthquake is the third earthquake in an M w 6.4+ sequence occurring
in the Pamir initiated by the 2015 Sarez M w 7.2 earthquake. It is of great significance to …