@article{epos212,
          volume = {69},
          number = {6},
           title = {Scale-free networks of earthquakes and aftershocks},
          author = {Marco Baiesi and Maya Paczuski},
       publisher = {The American Physical Society},
            year = {2004},
         journal = {Physical Review E},
             url = {https://episodesplatform.eu/eprints/212/},
        abstract = {We propose a metric to quantify correlations between earthquakes. The metric consists of a product involving the time interval and spatial distance between two events, as well as the magnitude of the ?rst one.
According to this metric, events typically are strongly correlated to only one or a few preceding ones. Thus a
classi?cation of events as foreshocks, main shocks, or aftershocks emerges automatically without imposing
predetermined space-time windows. In the simplest network construction, each earthquake receives an incoming link from its most correlated predecessor. The number of aftershocks for any event, identi?ed by its
outgoing links, is found to be scale free with exponent
{\ensuremath{\gamma}}=2.0(1). The original Omori law with p=1 emerges
as a robust feature of seismicity, holding up to years even for aftershock sequences initiated by intermediate
magnitude events. The broad distribution of distances between earthquakes and their linked aftershocks sug-
gests that aftershock collection with ?xed space windows is not appropriate.}
}