부산대학교 도서관

Galaxies evolve through a dynamic exchange of material with their immediate surrounding environment, the circumgalactic medium (CGM). Understanding the physics of gas flows and the nature of the CGM is thus fundamental to studying galaxy evolution, especially at $4 \leq z \leq 6$ when galaxies rapidly assembled their masses and reached their chemical maturity. Galactic outflows are predicted to enrich the CGM with metals, although gas stripping in systems undergoing a major merger has also been suggested to play a role. In this work, we explore the metal enrichment of the medium around merging galaxies at $z\sim4.5$, observed by the ALMA Large Program to INvestigate [CII] at Early times (ALPINE) survey. To do so, we study the nature of the [CII]158 $\mu$m emission in the CGM around these systems, using simulations to help disentangle the mechanisms contributing to the CGM metal pollution. By adopting an updated classification of major merger systems in the ALPINE survey, we select and analyse merging galaxies whose components can be spatially and/or spectrally resolved in a robust way. In this way, we can distinguish between the [CII] emission coming from the single components of the system and that coming from the system as a whole. We also make use of the dustyGadget cosmological simulation to select synthetic analogues of observed galaxies and guide the interpretation of the observational results. We find a large diffuse [CII] envelope (> 20 kpc) embedding all the merging systems, with around 50% of the total [CII] emission coming from the medium between the galaxies. Using predictions from dustyGadget we suggest that this emission has a two-fold nature: it is due to both dynamical interactions between the galaxies which result in tidal stripped gas and the presence of star-forming satellites (currently unresolved by ALMA) that enrich the medium with heavy elements.
Comment: 20 pages, 14 figure, 2 tables. Few updated references, comments welcome