Add to ORKGThis paper presents an analysis of the distribution of the time $\tau$ between two consecutive events in a stationary point process. The study is motivated by the discovery of a unified scaling law for $\tau$ for the case of seismic events. It is shown that the unified law must necessarily be exponential. We discuss the parameterization of the empirical unified law and the physical meaning of the parameters involved
The statistics of recurrence times in broad areas have been reported to obey universal scaling laws,...
We present a study of the earthquake intertime distribution D(Δt) for a California catalog in tempor...
We present a study of the earthquake intertime distribution D(Delta t) for a California catalog in t...
We propose a simple theory for the ``universal'' scaling law previously reported for the distributio...
The statistical properties of seismic time series, including both sequences of aftershocks, and patt...
The statistical properties of seismic time series, including both sequences of aftershocks, and patt...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
It is known that the distribution of seismic inter-event times is well described by the Gamma distri...
The distribution of interevent times between two successive earthquakes is generally modelled as Gam...
The distribution of interevent times between two successive earthquakes is generally modelled as Gam...
We propose a branching process based on a dynamical scaling hypothesis relating time and mass. In th...
We propose a branching process based on a dynamical scaling hypothesis relating time and mass. In th...
The distribution of inter-occurrence time between seismic events is a quantity of great interest in ...
Abstract A mixed model is proposed to fit earthquake interevent time distribution. In this model, th...
The statistics of recurrence times in broad areas have been reported to obey universal scaling laws,...
We present a study of the earthquake intertime distribution D(Δt) for a California catalog in tempor...
We present a study of the earthquake intertime distribution D(Delta t) for a California catalog in t...
We propose a simple theory for the ``universal'' scaling law previously reported for the distributio...
The statistical properties of seismic time series, including both sequences of aftershocks, and patt...
The statistical properties of seismic time series, including both sequences of aftershocks, and patt...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
It is known that the distribution of seismic inter-event times is well described by the Gamma distri...
The distribution of interevent times between two successive earthquakes is generally modelled as Gam...
The distribution of interevent times between two successive earthquakes is generally modelled as Gam...
We propose a branching process based on a dynamical scaling hypothesis relating time and mass. In th...
We propose a branching process based on a dynamical scaling hypothesis relating time and mass. In th...
The distribution of inter-occurrence time between seismic events is a quantity of great interest in ...
Abstract A mixed model is proposed to fit earthquake interevent time distribution. In this model, th...
The statistics of recurrence times in broad areas have been reported to obey universal scaling laws,...
We present a study of the earthquake intertime distribution D(Δt) for a California catalog in tempor...
We present a study of the earthquake intertime distribution D(Delta t) for a California catalog in t...