RT - Journal Article T1 - SAR Interferometry, Bayesian inversion, Sarpol-e zahab earthquake, Fault source parameters JF - kntu-jgit YR - 2022 JO - kntu-jgit VO - 10 IS - 2 UR - http://jgit.kntu.ac.ir/article-1-881-en.html SP - 105 EP - 118 K1 - SAR Interferometry K1 - Bayesian inversion K1 - Sarpol-e zahab earthquake K1 - Fault source parameters AB - Abstract Earthquakes occur at teh border of teh plates and faults, causing financial and casual damages. Teh study of earthquakes and surface deformation is useful in understanding teh mechanism of earthquakes and managing teh risks and crises of earthquakes. A fault can be specified by its geometric source parameters. In Okada’s definition, these parameters are length, width, depth, strike, dip, rake, and slip. One of teh methods to estimate teh parameters is displacement fields through geodetic techniques such as GPS and InSAR. In this study, teh LOS displacement of teh 2017 Sarpol-e Zahab earthquake is produced through teh InSAR technique and Sentinel-1A/B images. Teh 3-dimensional displacement field is retrieved by combining LOS displacements. Source parameters of blind reverse fault are estimated by applying Bayesian inversion on LOS displacement. Source parameters are estimated by applying least squares inversion on 3D displacement components. According to teh results, teh maximum of 3 meters slip is detected perpendicular to teh fault plane approximately at teh 7 kilometers depth. A comparison of teh estimated parameters through LOS and 3D displacement fields and geological catalogs indicated that teh estimated parameters through 3D displacement are more accurate rather than LOS parameters. LA eng UL http://jgit.kntu.ac.ir/article-1-881-en.html M3 10.52547/jgit.10.2.105 ER -