Pinch mechanism of energy release of stellar flares

A laboratory simulation method is proposed for energy release processes occurring in a fragment of the flare current sheet on the Sun. The method relies on the assumption that the spatial scale of such processes is represented by the current sheet's thickness whose values can be close for both the s

A basic new result from the Hard X-ray Imaging Spectrometer (HXIS) observations, is that flaring activity as seen in X-rays usually encompasses two or more interacting magnetic bipoles within an active region (Machado and Moore, 1987; Machado et al., 1987a,b). This picture contrasts with the standar

Flare phenomena in the solar atmosphere and in the terrestrial magnetosphere exhibit many similarities. The mechanical energy of enhanced photospheric motion is converted and stored in the form of magnetic potential energy in sunspot fields, which is analogous to the case of the growth phase of magn

We present observational data onsteUar flares from a range of wavelength regimes, many of winch were obtained simultaneously. Physical parameters of these flares are derived and discussed in the framework of the general solar flare model. It is found that flares on dMe stars are solar-like, except i