Litcius/Paper detail

Is multiphase gas cloudy or misty?

Max Grönke, S. Peng Oh

2020Monthly Notices of the Royal Astronomical Society Letters75 citationsDOIOpen Access PDF

Abstract

ABSTRACT Cold T ∼ 104 K gas morphology could span a spectrum ranging from large discrete clouds to a fine ‘mist’ in a hot medium. This has myriad implications, including dynamics and survival, radiative transfer, and resolution requirements for cosmological simulations. Here, we use 3D hydrodynamic simulations to study the pressure-driven fragmentation of cooling gas. This is a complex, multistage process, with an initial Rayleigh–Taylor unstable contraction phase that seeds perturbations, followed by a rapid, violent expansion leading to the dispersion of small cold gas ‘droplets’ in the vicinity of the gas cloud. Finally, due to turbulent motions, and cooling, these droplets may coagulate. Our results show that a gas cloud ‘shatters’ if it is sufficiently perturbed out of pressure balance (δP/P ∼ 1) and has a large final overdensity χf ≳ 300, with only a weak dependence on the cloud size. Otherwise, the droplets reassemble back into larger pieces. We discuss our results in the context of thermal instability and clouds embedded in a shock-heated environment.

Topics & Concepts

PhysicsAstrophysicsRadiative coolingMechanicsPolytropic processTurbulenceRadiative transferContext (archaeology)InstabilityShock waveThermalMeteorologyOpticsPaleontologyBiologyAstrophysics and Star Formation StudiesGalaxies: Formation, Evolution, PhenomenaGamma-ray bursts and supernovae