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Rupturing process of the M_W7.9 Nepal earthquake inverted by the multi-array compressive sensing method

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ã€Authorã€‘ LIU Zhi-Peng;GE Zeng-Xi;Department of Geophysics,School of Earth and Space Sciences,Peking University;

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ã€Abstractã€‘ An MW7.9earthquake occurred in Nepal on 25 April,2015.Its hypocenter is located at28.1Â°N,84.7Â°E.In order to investigate the rupturing process of this temblor in detail,we use the multi-array compressive sensing(MCS)method to invert vertical component data of teleseismic P waves recorded by 179 stations of Alaska,Europe and Australia arrays.Traditionally,the compressive sensing(CS)method,based on data from unique array,can recover sparsely distributed source locations in the frequency domain.While the MCS could improve the resolution because of the larger azimuth coverage range than only using data from single array.To apply this method,the first thing is to align the data from each array using cross-correlation respectively.Secondly we stack the aligned data from each array to make the first P wave pulse clear enough to be recognized so that all the data could be aligned.Finally we invert the spatiotemporal rupture process with a sliding window based on the multi-array compressive sensing method.Combining with the discriminant factor(DF),we reduce artifactsand obtain a more credible result.The result indicates that there is a unilateral rupture with orientation of SEE,length of 105 km,and duration time of 58 s.During the first 15 sof failure,the power radiation is mainly distributed around the epicenter.Since 16 s,the rupture propagated toward SEE with a rate of1.9kmÂ·s-1.The largest energy is released at 38 s,70km from the hypocenter.The break of this position starts from 29 sand lasts for 30 s.Additionally,we compare the rupture details of the Nepal earthquake and 2008 Wenchuan earthquake because of their same magnitude.Moreover,MCS can offer zones where power radiated intensely, which could provide helpful information for emergency rescue after earthquakes.And we discuss the improvement of resolution because of the larger azimuth coverage range.In the end,based on slip deficit and rate of accumulation of moment deficit,we conclude that this 2015 earthquake could be a repeat of the 1833 M7.7 Nepal temblor.And the possibility of the occurrence of a larger earthquake in this region cannot be excluded.æ›´å¤š è¿˜åŽŸ