Using the adaptive mesh refinement code MG, we perform 3D hydrodynamic simulations of a supernova–cloud interaction in the ‘large cloud regime’. The cloud is initially atomic and evolving due to the thermal instability (TI) and gravity. We study interactions in a ‘pre-TI’ and ‘post-TI’ stage when cold and dense clumps are present, and compare these results to idealized shock–cloud scenarios in the ‘small cloud regime’, and a scenario without shocks. On aggregate, the supernova disruption is significantly weaker than that from an idealized shock due to the supernova impact being instantaneous, and not continuous. In both supernova–cloud interactions, we observe two shocks impact the cloud, followed by the development of a weak 10 km s−1 upst...
International audienceContext. Molecular clouds are known to be turbulent and strongly affected by s...
We present optical observations and two-dimensional hydrodynamic modeling of an isolated shocked ISM...
This is the dataset to accompany the publication titled "Shocking interactions of supernova remnants...
Using the adaptive mesh refinement code MG, we perform 3D hydrodynamic simulations of a supernova-cl...
Using the adaptive mesh refinement code MG, we perform hydrodynamic simulations of the interaction o...
Using the MG code we performed hydrodynamical simulations to study the relative importance between t...
We have used the AMR hydrodynamic code, MG, to perform 3D hydrodynamic simulations with self-gravity...
We model the hydrodynamic interaction of a shock wave of an evolved supernova remnant with a small i...
We present 3D hydrodynamic simulations of the adiabatic interaction of a shock with a dense, spheric...
We present 2D adiabatic magnetohydrodynamic simulations of a shock interacting with groups of two or...
This paper describes 3D simulations of the formation of collapsing cold clumps via thermal instabili...
We investigate the propagation of a shock wave into a warm neutral medium and cold neutral medium by...
Most galaxies present supernova shock fronts interacting with cloudy interstellar medium. These int...
The MHD version of the adaptive mesh refinement (AMR) code, MG, has been employed to study the inter...
AIMS. We study and discuss the time-dependent X-ray emission predicted by hydrodynamic modeling of t...
International audienceContext. Molecular clouds are known to be turbulent and strongly affected by s...
We present optical observations and two-dimensional hydrodynamic modeling of an isolated shocked ISM...
This is the dataset to accompany the publication titled "Shocking interactions of supernova remnants...
Using the adaptive mesh refinement code MG, we perform 3D hydrodynamic simulations of a supernova-cl...
Using the adaptive mesh refinement code MG, we perform hydrodynamic simulations of the interaction o...
Using the MG code we performed hydrodynamical simulations to study the relative importance between t...
We have used the AMR hydrodynamic code, MG, to perform 3D hydrodynamic simulations with self-gravity...
We model the hydrodynamic interaction of a shock wave of an evolved supernova remnant with a small i...
We present 3D hydrodynamic simulations of the adiabatic interaction of a shock with a dense, spheric...
We present 2D adiabatic magnetohydrodynamic simulations of a shock interacting with groups of two or...
This paper describes 3D simulations of the formation of collapsing cold clumps via thermal instabili...
We investigate the propagation of a shock wave into a warm neutral medium and cold neutral medium by...
Most galaxies present supernova shock fronts interacting with cloudy interstellar medium. These int...
The MHD version of the adaptive mesh refinement (AMR) code, MG, has been employed to study the inter...
AIMS. We study and discuss the time-dependent X-ray emission predicted by hydrodynamic modeling of t...
International audienceContext. Molecular clouds are known to be turbulent and strongly affected by s...
We present optical observations and two-dimensional hydrodynamic modeling of an isolated shocked ISM...
This is the dataset to accompany the publication titled "Shocking interactions of supernova remnants...