The interaction of magnetic structures and the conversion of magnetic free energy into heating of the plasma and acceleration of particles are commonly accepted as the origin of solar flares. The 3-dimensional (3D) structure and evolution of the coronal magnetic field can be investigated indirectly by the analysis of the images of various loops filled with emitting plasma or/and through a numerical modelling based on photospheric field measurements. Exploring multi-wavelength observations of the C7.2 class solar flare that occurred in the NOAA 8088 active region (AR) on 25 September 1997, we have previously built ([CITE], hereafter Paper I) a phenomenological 3D model of the magnetic configuration of the flare area, and a scenario of...
International audienceIn this paper we analyse an M 1.0 confined flare observed mainly during its gr...
International audienceAn active region (AR) NOAA 10486, which produced a large number of X-ray flare...
Context. The standard model for eruptive flares has been extended to three dimensions (3D)...
The interaction of magnetic structures and the conversion of magnetic free energy into heating of t...
The interaction of magnetic structures and the conversion of magnetic free energy into heating of th...
Aims.The aim of this paper is to understand the magnetic configuration and evolution of an active re...
To better understand eruptive events in the solar corona, we combine sequences of multi-wavelength o...
Based on a multiwavelength data set and a topological model for the magnetic field, the authors argu...
Abstract. New observations justify the flare scenario predicted by the electrodynamical model based ...
International audienceOn 27 October, 2003, two GOES M-class flares occurred in an interval of 3 h in...
In this paper we analyse an M 1.0 confined flare observed mainly during its gradual phase. We use th...
Context. The standard model for eruptive flares has been extended to three dimensions (3D) in the pa...
We investigate the X-ray and UV emission detected by RHESSI and TRACE in the context of a solar flar...
We investigate the X-ray and UV emission detected by RHESSI and TRACE in the context of a solar flar...
We review a selection of observations in radio, hard X-rays (HXR) and soft X-rays (SXR) that constra...
International audienceIn this paper we analyse an M 1.0 confined flare observed mainly during its gr...
International audienceAn active region (AR) NOAA 10486, which produced a large number of X-ray flare...
Context. The standard model for eruptive flares has been extended to three dimensions (3D)...
The interaction of magnetic structures and the conversion of magnetic free energy into heating of t...
The interaction of magnetic structures and the conversion of magnetic free energy into heating of th...
Aims.The aim of this paper is to understand the magnetic configuration and evolution of an active re...
To better understand eruptive events in the solar corona, we combine sequences of multi-wavelength o...
Based on a multiwavelength data set and a topological model for the magnetic field, the authors argu...
Abstract. New observations justify the flare scenario predicted by the electrodynamical model based ...
International audienceOn 27 October, 2003, two GOES M-class flares occurred in an interval of 3 h in...
In this paper we analyse an M 1.0 confined flare observed mainly during its gradual phase. We use th...
Context. The standard model for eruptive flares has been extended to three dimensions (3D) in the pa...
We investigate the X-ray and UV emission detected by RHESSI and TRACE in the context of a solar flar...
We investigate the X-ray and UV emission detected by RHESSI and TRACE in the context of a solar flar...
We review a selection of observations in radio, hard X-rays (HXR) and soft X-rays (SXR) that constra...
International audienceIn this paper we analyse an M 1.0 confined flare observed mainly during its gr...
International audienceAn active region (AR) NOAA 10486, which produced a large number of X-ray flare...
Context. The standard model for eruptive flares has been extended to three dimensions (3D)...