Add to ORKGEarthquakes and solar flares are phenomena involving huge and rapid releases of energy characterized by complex temporal occurrence. By analyzing available experimental catalogs, we show that the stochastic processes underlying these apparently different phenomena have universal properties. Namely, both problems exhibit the same distributions of sizes, interoccurrence times, and the same temporal clustering: We find after flare sequences with power law temporal correlations as the Omori law for seismic sequences. The observed universality suggests a common approach to the interpretation of both phenomena in terms of the same driving physical mechanism
journal homepage: www.elsevier.com/locate/physa Universality in solar flare, magnetic storm and eart...
Earthquakes are obviously complex phenomena associated with complicated spatiotemporal correlations,...
Context. Experimental observations indicate that flares and CMEs are often associated, even if the p...
Earthquakes and solar flares are phenomena involving huge and rapid releases of energy characterized...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
International audienceThe universal character of the dynamics of various extreme phenomena is an out...
The dynamics of complex systems are founded on universal principles that can be used to describe dis...
We propose a simple theory for the ``universal'' scaling law previously reported for the distributio...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
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...
journal homepage: www.elsevier.com/locate/physa Universality in solar flare, magnetic storm and eart...
Earthquakes are obviously complex phenomena associated with complicated spatiotemporal correlations,...
Context. Experimental observations indicate that flares and CMEs are often associated, even if the p...
Earthquakes and solar flares are phenomena involving huge and rapid releases of energy characterized...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
Earthquakes are phenomena of great complexity, however some simple general laws govern the statistic...
International audienceThe universal character of the dynamics of various extreme phenomena is an out...
The dynamics of complex systems are founded on universal principles that can be used to describe dis...
We propose a simple theory for the ``universal'' scaling law previously reported for the distributio...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
The interevent time distribution characterizes the temporal occurrence in seismic catalogs. Universa...
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...
journal homepage: www.elsevier.com/locate/physa Universality in solar flare, magnetic storm and eart...
Earthquakes are obviously complex phenomena associated with complicated spatiotemporal correlations,...
Context. Experimental observations indicate that flares and CMEs are often associated, even if the p...