Co-seismic Deformation and Source Parameters of the Mw6.0 Düzce Earthquake by InSAR

23 November, 2022 Mw 6.0 Düzce Earthquake occurred in the west of the North Anatolian Fault Zone (NAFZ) representing a nascent transform fault between the Eurasian Plate and Anatolian Plate. Well-documented seismic sequence along this fault zone started in the east with the 1939 M7.9 Erzincan Earthquake and migrated westward with M>7 earthquakes. Following 1999 Mw7.4 Izmit and Mw7.2 Düzce failures, the next major earthquake was expected to be on the branch of the NAFZ in the Sea of ​​Marmara. However, the 2022 Düzce Earthquake activated already broken Karadere segment during the 1999 Izmit earthquake but release the accumulated strain energy at the north-eastern end of this segment. In this study, we aimed to measure co-seismic surface deformation caused by the 2022 Düzce rupture and determine the source parameters by combining geodetic and geophysical measurements. The co-seismic deformation is analyzed by using Interferometric Synthetic Aperture Radar (InSAR) technique performed on the Sentinel-1 data. The pre- and post-earthquake ascending and descending SAR images were processed using the TopsApp module of the InSAR Scientific Computing Environment (ISCE) software to obtain interferograms of the co-seismic deformation. Our preliminary results show ~30 mm surface deformation. Our preliminary inversion, based on Okada elastic dislocation modeling, resulted in a fault geometry with ~267, 68 and -172 for strike, dip, and rake angles, respectively. This identifies a dominant right-lateral strike slip motion and is fairly compatible with both surface morphological properties of this segment as well as with initial seismology data-based mechanism solutions of various national/international monitoring centers (e.g. KOERI, GEOFON).