Survival of higher overdensity cold gas in a turbulent, multiphase medium

Abstract

Cold gas clouds embedded in a hot, turbulent medium are expected to be short-lived due to disruptive hydrodynamic instabilities. However, radiative cooling might allow such clouds to survive and grow. We present 3D Athena++ simulations of clouds with a density contrast of = 1000, exploring turbulent Mach numbers M∈ (0.25, 0.75) and cloud radii chosen to span cooling-to-crushing ratios α ∈ [0.001, 10]. We find a shift in the survival boundary, with cloud survival occurring only when the cooling-to-cloud-crushing ratio (tcool,mix / tcc) 0.01, which is lower than the expected boundary of 1. This result shows that it is more difficult for higher over-density cold clouds to survive in a turbulent, hot medium, and suggests another `survival criterion'.