Spectral Factorization of the Source Time Function of an Earthquake from Coda Waves, Application to the 2003 Rambervillers, France, Earthquake

摘要

In a previous work, a spectral factorization algorithm of the seismic coda wavefield was implemented to extract the underwater source time function (STF) of the Kursk's explosion from a single regional record (Sebe et al., 2005). The purpose of this study is to apply this approach to natural earthquake events, on the example of a moderate-size event (Mw 4.9) in northeastern France. The main difficulty of such an adjustment lies in the reliability of the minimum phase assumption required by the spectral factorization algorithm. An investigation of the phase properties of earthquake STF indicates that classical single-patch models such as the Brune model fulfill the minimum phase condition, whereas multiple patch models probably do not. Nevertheless, it is shown that minimum phase wavelets (MPWs) provide reliable information on the actual STF properties such as the duration, seismic moment, and even the actual time history. A statistical study on the time-domain differences between 20,000 arbitrary finite duration wavelets and their minimum phase equivalent supports an a priori minimum phase criterion based on the time-frequency spread of the recovered STF: the lower the latter, the smaller the time-domain discrepancy between the estimated MPW and the unknown actual one.