Add to ORKGModels in which radiation dominates cooling flare loops are investigated. The radiative models are found to predict a differential emission measure (Q) proportional to T to the (l+1) power, where l measures the dependence of the radiative loss coefficient on temperature, lamda (T) approximately T to the (-l) power. It is concluded that the radiative models are incapable of explaining the observed temperature dependence of Q for flare coronal and transitional plasma. The models suggest that large mass motions (velocities of the order of the sound speed) may be required
Using the “enthalpy-based thermal evolution of loops” (EBTEL) model, we investigate the hydrodynamic...
Aims.We outline the construction of prominence – corona transition region models based upon the obse...
I will present models of the solar atmospheric response to flare heating. The models solve the equat...
ABSTRACT---- We investigate a model for the decay of flare heated coronal loops in which rapid radia...
Context. Solar flares release an enormous amount of energy (∼1032 erg) into the corona. A substantia...
We report on radiative hydrodynamic simulations of moderate and strong solar flares. The flares were...
We examine the radiative cooling of coronal loops and demonstrate that the recently identified catas...
Context. Radiative losses from optically thin plasma are an important ingredient in modeli...
Aims. We investigated the response of the solar atmosphere to non-thermal electron beam heating usin...
In order to study the properties of faint, moderate and bright flares, we simulate the conditions of...
A one-dimensional loop model for the evaporative cooling of the coronal flare plasma was investigate...
A one-dimensional hydrodynamics code is used to study the cooling of solar flares. The cooling of th...
Context. Radiative losses are an indispensable part of the numerical simulation of flares. Detailed ...
Aims: The aim of this work is to investigate the dynamic behavior of a C-class solar flare through t...
This thesis examines the heating of the solar atmosphere due to energy release in solar flares. A on...
Using the “enthalpy-based thermal evolution of loops” (EBTEL) model, we investigate the hydrodynamic...
Aims.We outline the construction of prominence – corona transition region models based upon the obse...
I will present models of the solar atmospheric response to flare heating. The models solve the equat...
ABSTRACT---- We investigate a model for the decay of flare heated coronal loops in which rapid radia...
Context. Solar flares release an enormous amount of energy (∼1032 erg) into the corona. A substantia...
We report on radiative hydrodynamic simulations of moderate and strong solar flares. The flares were...
We examine the radiative cooling of coronal loops and demonstrate that the recently identified catas...
Context. Radiative losses from optically thin plasma are an important ingredient in modeli...
Aims. We investigated the response of the solar atmosphere to non-thermal electron beam heating usin...
In order to study the properties of faint, moderate and bright flares, we simulate the conditions of...
A one-dimensional loop model for the evaporative cooling of the coronal flare plasma was investigate...
A one-dimensional hydrodynamics code is used to study the cooling of solar flares. The cooling of th...
Context. Radiative losses are an indispensable part of the numerical simulation of flares. Detailed ...
Aims: The aim of this work is to investigate the dynamic behavior of a C-class solar flare through t...
This thesis examines the heating of the solar atmosphere due to energy release in solar flares. A on...
Using the “enthalpy-based thermal evolution of loops” (EBTEL) model, we investigate the hydrodynamic...
Aims.We outline the construction of prominence – corona transition region models based upon the obse...
I will present models of the solar atmospheric response to flare heating. The models solve the equat...