A new method to constrain the appearance and disappearance of observed Jellyfish galaxy tails

Rory Smith*, Jong-Ho Shinn, Stephanie Tonnesen, Paula Calderon-Castillo, Jacob Crossett, Yara L. Jaffe, Ian Roberts, Sean McGee, Koshy George, Benedetta Vulcani, Marco Gullieuszik, Alessia Moretti, Bianca M. Poggianti, Jihye Shin

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

We present a new approach to observationally constrain where the tails of Jellyfish (JF) galaxies in groups and clusters first appear and how long they remain visible with respect to the moment of their orbital pericenter. This is accomplished by measuring the distribution of their tail directions with respect to their host's center, and their distribution in a projected velocity-radius phase-diagram. We then model these observed distributions using a fast and flexible approach where JF tails are painted onto dark matter halos according to a simple parameterised prescription, and perform a Bayesian analysis to estimate the parameters. We demonstrate the effectiveness of our approach using observational mocks, and then apply it to a known observational sample of 106 JF galaxies with radio continuum tails located inside 68 hosts such as groups and clusters. We find that, typically, the radio continuum tails become visible on first infall when the galaxy reaches roughly three quarters of r$_{200}$, and the tails remain visible for a few hundred Myr after pericenter passage. Lower mass galaxies in more massive hosts tend to form visible tails further out and their tails disappear more quickly after pericenter. We argue that this indicates they are more sensitive to ram pressure stripping. With upcoming large area surveys of JF galaxies in progress, this is a promising new method to constrain the environmental conditions in which visible JF tails exist.
Original languageEnglish
Article number86
Number of pages18
JournalThe Astrophysical Journal
Volume934
Issue number1
Early online date20 Jul 2022
DOIs
Publication statusPublished - 27 Jul 2022

Bibliographical note

Accepted to ApJ June 2022, 24 pages, 13 figures, 2 tables

Keywords

  • Galaxy clusters
  • Galaxy dark matter halos
  • Galaxy evolution
  • Galaxy groups
  • Galaxy tails
  • Orbits
  • Radio continuum emission

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