Stephen H. Hartzell Habib Rahimi Rahmatollah Rouhollahi Rouholla Amiri Fard Atefeh Saltanatpouri 2021 <p id="sp0135">We use combined teleseismic and strong motion data sets to investigate finite-fault slip models for a double of earthquakes that occurred on August 11, 2012, in northwestern Iran near the cities of Ahar and Varzaghan. The data include teleseismic P-waveforms retrieved from broadband seismic stations located between 30°–94° from the earthquakes and local strong motion data recorded by the Iran Strong Motion Network, installed and operated by the Building and Housing Research Centre. We first invert teleseismic P-waveforms and local strong motion data separately. For the first event (12:23 UTC), the teleseismic broadband inversion yields a somewhat deeper and simpler distribution of slip than the local strong motion inversion. The strong motion inversion results in a more complex distribution because of higher frequency content but can also be influenced by complexities in the propagation path. For the second event (12:34 UTC), the slip distribution from strong motion data is more similar to the teleseismic result and shows a simple slip area with a small relative movement to the west. To resolve the differences between the results of these two data sets and obtain a better constrained slip model, we perform a joint inversion of teleseismic broadband and local strong motion data.</p><p id="sp0140">The joint inversion for the first event shows two asperities with a maximum slip of 3.9&nbsp;m up- dip from the hypocenter and extending to the west between depths of 1 and 5&nbsp;km. A second narrower high-slip area is seen just above the hypocenter from 6 to 10&nbsp;km depth. The total moment for this earthquake is calculated to be M_o&nbsp;=&nbsp;3.8&nbsp;×&nbsp;10²⁵&nbsp;dyn-cm (3.8&nbsp;×&nbsp;10¹⁸&nbsp;N.m) (M_w<span>&nbsp;6.4). For the second event, the results of the joint inversion show a simple slip distribution that is mainly confined in a single patch around the hypocenter with a depth range from about 10 to 13&nbsp;km and maximum slip of 1.9&nbsp;m. We compute a total&nbsp;<a class="topic-link" title="Learn more about seismic moment from ScienceDirect's AI-generated Topic Pages" href="https://www.sciencedirect.com/topics/earth-and-planetary-sciences/seismic-moment" data-mce-href="https://www.sciencedirect.com/topics/earth-and-planetary-sciences/seismic-moment">seismic moment</a>&nbsp;of M</span>_o&nbsp;=&nbsp;1.6&nbsp;×&nbsp;10²⁵&nbsp;dyn-cm (1.6&nbsp;×&nbsp;10¹⁸&nbsp;N.m) (M_w<span>&nbsp;</span>6.1) for the second event. The largest stress drops for the first event occur above the hypocenter with an average stress drop over the rupture area of 120&nbsp;bar (12 Mpa). For the second event, the maximum stress drop occurs at the reported focal depth with an average stress drop over the rupture area of 80&nbsp;bar (8 Mpa).</p> application/pdf 10.1016/j.pepi.2021.106688 en Elsevier Slip distribution and rupture history of the August 11, 2012, double earthquakes in Ahar – Varzaghan, Iran, using joint inversion of teleseismic broadband and local strong motion data article