Cold clouds embedded in warm media are very common objects in astrophysics.
Their disruption timescale depends strongly on the dynamical configuration. We
discuss the evolution of an initially homogeneous cold cloud embedded in warm
turbulent gas. Within a couple of dynamical timescales, the filling factor of
the cold gas within the original cloud radius drops below 50%. Turbulent
diffusivities estimated from the time evolution of radial filling factor
profiles are not constant with time. Cold and warm gas are bodily transported
by turbulence and mixed. This is only mildly indicated by column density maps.
The radiation field within the cloud, however, increases by several orders of
magnitudes due to the mixing, with possible consequences for cloud chemistry
and evolution within a few dynamical timescales.Comment: 11 pages, 12 figures, accepted by MNRA