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The origin of the [CII]-deficit in a simulated dwarf galaxies starburst

Authors :
Bisbas, Thomas G.
Walch, Stefanie
Naab, Thorsten
Lahén, Natalia
Herrera-Camus, Rodrigo
Steinwandel, Ulrich P.
Fotopoulou, Constantina M.
Hu, Chia-Yu
Johansson, Peter H.
Publication Year :
2022

Abstract

We present [CII] synthetic observations of smoothed particle hydrodynamics (SPH) simulations of a dwarf galaxy merger. The merging process varies the star-formation rate by more than three orders of magnitude. Several star clusters are formed, the feedback of which disperses and unbinds the dense gas through expanding HII regions and supernova (SN) explosions. For galaxies with properties similar to the modelled ones, we find that the [CII] emission remains optically thin throughout the merging process. We identify the Warm Neutral Medium ($3<\log T_{\rm gas}<4$ with $\chi_{\rm HI}>2\chi_{\rm H2}$) to be the primary source of [CII] emission ($\sim58\%$ contribution), although at stages when the HII regions are young and dense (during star cluster formation or SNe in the form of ionized bubbles) they can contribute $\gtrsim50\%$ to the total [CII] emission. We find that the [CII]/FIR ratio decreases due to thermal saturation of the [CII] emission caused by strong FUV radiation fields emitted by the massive star clusters, leading to a [CII]-deficit medium. We investigate the [CII]-SFR relation and find an approximately linear correlation which agrees well with observations, particularly those from the Dwarf Galaxy Survey. Our simulation reproduces the observed trends of [CII]/FIR versus $\Sigma_{\rm SFR}$ and $\Sigma_{\rm FIR}$, and it agrees well with the Kennicutt relation of SFR-FIR luminosity. We propose that local peaks of [CII] in resolved observations may provide evidence for ongoing massive cluster formation.<br />Comment: To appear in ApJ. 24 pages, 17 figures. Comments welcome!

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2205.08905
Document Type :
Working Paper
Full Text :
https://doi.org/10.3847/1538-4357/ac7960