Add to ORKGWe have developed a new type of cellular automaton (CA) model, the extended CA (X-CA), for the study of solar flares. The X-CA model is consistent with the MHD approach, in contrast to the previously proposed CA models (classical CAs), it consistently yields all the relevant physical variables, and it successfully reproduces the observed distributions of total energy, peak flux, and duration of solar flares. We present and discuss the relevant plasma processes and set-up which are implemented by the X-CA model in the framework of a commonly accepted solar flare scenario
We present a unified computational framework that can be used to describe impulsive flares on the Su...
A two-dimensional probabilistic Cellular Automaton is used to model the appearance of active regions...
International audienceThe prediction of solar flares is still a significant challenge in space weath...
In Isliker et al. ([CITE]), an extended cellular automaton (X-CA) model for solar flares was introd...
Abstract. We show that the Cellular Automaton (CA) model for Solar flares of Lu and Hamilton (1991) ...
International audienceWe perform a tentative comparison between the statistical properties of cellul...
We perform a tentative comparison between the statistical properties of cellular automata statistic...
Context. We interpret solar flares as events originating in active regions that have reached the sel...
We study a two-dimensional cellular automaton (CA) model for the evolution of coronal loop plasmas....
Solar activity, including flares, CMEs, sunspots, global fleld reversal and, consequential to these,...
International audienceContext: We study the acceleration and radiation of electrons and ions interac...
We use the cellular automaton model described in López Fuentes & Klimchuk (2015, ApJ, 799, 128) to s...
11 pages, 9 figuresA 3D model intermediate between cellular automata (CA) models and the reduced mag...
A 3D model intermediate between cellular automata (CA) models and the reduced magnetohydrodynamic (...
We present a unified computational framework that can be used to describe impulsive flares on the Su...
We present a unified computational framework that can be used to describe impulsive flares on the Su...
A two-dimensional probabilistic Cellular Automaton is used to model the appearance of active regions...
International audienceThe prediction of solar flares is still a significant challenge in space weath...
In Isliker et al. ([CITE]), an extended cellular automaton (X-CA) model for solar flares was introd...
Abstract. We show that the Cellular Automaton (CA) model for Solar flares of Lu and Hamilton (1991) ...
International audienceWe perform a tentative comparison between the statistical properties of cellul...
We perform a tentative comparison between the statistical properties of cellular automata statistic...
Context. We interpret solar flares as events originating in active regions that have reached the sel...
We study a two-dimensional cellular automaton (CA) model for the evolution of coronal loop plasmas....
Solar activity, including flares, CMEs, sunspots, global fleld reversal and, consequential to these,...
International audienceContext: We study the acceleration and radiation of electrons and ions interac...
We use the cellular automaton model described in López Fuentes & Klimchuk (2015, ApJ, 799, 128) to s...
11 pages, 9 figuresA 3D model intermediate between cellular automata (CA) models and the reduced mag...
A 3D model intermediate between cellular automata (CA) models and the reduced magnetohydrodynamic (...
We present a unified computational framework that can be used to describe impulsive flares on the Su...
We present a unified computational framework that can be used to describe impulsive flares on the Su...
A two-dimensional probabilistic Cellular Automaton is used to model the appearance of active regions...
International audienceThe prediction of solar flares is still a significant challenge in space weath...