📝 SummarXiv

Abstract

The evolution of galaxies in rich environments such as clusters and groups can be significantly perturbed during their interaction with nearby companions (tidal interactions) or with the hot intracluster medium (ICM) trapped within the gravitational potential well of the massive host halo (ram pressure stripping). Both gravitational perturbations and the external pressure exerted by the hot ICM on the galaxy ISM during its high velocity journey within the cluster are able to remove most, if not all of it, producing extended tails of stripped material. Along with the different gas phases (cold atomic and molecular, ionised, hot), these perturbations can remove also dust, thus contributing to the pollution of the ICM. Probe Infrared Mission for Astrophysics (PRIMA) is offering a unique opportunity to observe this dust component, a crucial ingredient in the energetic balance of the stripped gas. We analyse how the two instruments onboard of PRIMA, PRIMAger (in imaging and polarimetric mode) and far-IR enhanced survey spectrometer (FIRESS), can be used to observe a selected sample of ram pressure stripped tails detected at other frequencies (HI, CO, Halpha, X-rays). These data can be used to determine the relative distribution of the dust component with respect to that of the other gas phases, derive its temperature, calculate different gas physical parameters (electron density, photoelectric heating efficiency, gas metallicity), and quantify the strength of the turbulent magnetic fields, all fundamental parameters used to constrain the most recent hydrodynamic simulations of gas stripping in clusters. The ultimate aim of this research is that of understanding the fate of the cold stripped material once mixed with the surrounding hot medium and study under which condition it can collapse into giant molecular clouds (GMC) to form new stars.