Oral Presentation

Simulating Jellyfish Galaxies: A Case Study for a Gas-Rich Dwarf Galaxy

Author(s): Jaehyun Lee (KIAS), Taysun Kimm (Yonsei), Jeremy Blaizot (Univ Lyon), Harley Katz (Oxford), Wonki Lee (Yonsei), Yun-Kyeong Sheen (KASI), Julien Devriendt (Oxford), and Adrianne Slyz (Oxford)

Presenter: Jaehyun Lee (Korea Institute of Advanced Study)

We investigate the formation of jellyfish galaxies using radiation-hydrodynamic simulations of gas-rich dwarf galaxies with a multi-phase interstellar medium (ISM). We find that the ram-pressure-stripped (RPS) ISM is the dominant source of molecular clumps in the near wake within 10 kpc from the galactic plane, while in-situ formation is the major channel for dense gas in the distant tail of the gas-rich galaxy. Only 20% of the molecular clumps in the near wake originate from the intracluster medium (ICM); however, the fraction reaches 50% in the clumps located at 80 kpc from the galactic center since the cooling time of the RPS gas tends to be short due to the ISM-ICM mixing (< 10 Myr). The tail region has a star formation rate of 0.001-0.01 Msun/yr, and most of the tail stars are born in the stripped wake within 10 kpc from the galactic plane. These stars induce bright Ha blobs in the tail, while faint tail Ha blobs are mostly formed via collisional radiation and heating due to mixing. We also find that the stripped tails have intermediate X-ray to Ha surface brightness ratios (~0.5-10), compared to the ISM (~0.5) or pure ICM (>>10). Our results suggest that jellyfish features emerge when the ISM from gas-rich galaxies is stripped by strong ram pressure, mixes with the ICM, and enhances the cooling in the tail.