The self-similar dynamics of the collision between radiative and adiabatic supersonic planar flows are performed assuming homogeneous radiation cooling. New self-similar solutions relevant to both astrophysical objects and laboratory experiments are derived. Numerical simulations investigate the formation of the radiative cooling shock in the interstellar medium and laboratory Xenon plasma to demonstrate the self-similarity of the interaction in the special case of balanced ram pressure. When the radiation cooling is inhomogeneous, the flow can become thermally unstable and deviate from the self-similar solution
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
Context. The termination regions of non-relativistic jets in protostars and supersonic outflows in c...
Supersonic flows are expected to exist in the atmospheres of irradiated exoplanets, but the question...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
We study the radiative hydrodynamics flow of radiation-driven heat waves in hot dense plasmas, using...
16 pages, 19 figures, accepted by MNRASWe explore self-similar dynamical processes in a spherical is...
16 pages, 19 figures, accepted by MNRASWe explore self-similar dynamical processes in a spherical is...
16 pages, 19 figures, accepted by MNRASWe explore self-similar dynamical processes in a spherical is...
We explore self-similar dynamical processes in a spherical isothermal self-gravitational fluid with ...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
Context. The termination regions of non-relativistic jets in protostars and supersonic outflows in c...
Supersonic flows are expected to exist in the atmospheres of irradiated exoplanets, but the question...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
International audienceThe self-similar dynamics of the collision between radiative and adiabatic sup...
We study the radiative hydrodynamics flow of radiation-driven heat waves in hot dense plasmas, using...
16 pages, 19 figures, accepted by MNRASWe explore self-similar dynamical processes in a spherical is...
16 pages, 19 figures, accepted by MNRASWe explore self-similar dynamical processes in a spherical is...
16 pages, 19 figures, accepted by MNRASWe explore self-similar dynamical processes in a spherical is...
We explore self-similar dynamical processes in a spherical isothermal self-gravitational fluid with ...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
International audienceContext. The termination regions of non-relativistic jets in protostars and su...
Context. The termination regions of non-relativistic jets in protostars and supersonic outflows in c...
Supersonic flows are expected to exist in the atmospheres of irradiated exoplanets, but the question...