Do spiral arms enhance star formation efficiency? - INSU - Institut national des sciences de l'Univers
Journal Articles Astronomy & Astrophysics - A&A Year : 2024

Do spiral arms enhance star formation efficiency?

Miguel Querejeta
  • Function : Author
Adam K. Leroy
  • Function : Author
Sharon E. Meidt
  • Function : Author
Eva Schinnerer
  • Function : Author
Francesco Belfiore
  • Function : Author
Ralf S. Klessen
  • Function : Author
Jiayi Sun
  • Function : Author
Mattia Sormani
  • Function : Author
Yixian Cao
  • Function : Author
Mélanie Chevance
  • Function : Author
Dario Colombo
  • Function : Author
Daniel A. Dale
  • Function : Author
Santiago García-Burillo
  • Function : Author
Simon C. O. Glover
  • Function : Author
Kathryn Grasha
  • Function : Author
Brent Groves
  • Function : Author
Eric. W. Koch
  • Function : Author
Lukas Neumann
  • Function : Author
Hsi-An Pan
  • Function : Author
Ismael Pessa
  • Function : Author
Francesca Pinna
  • Function : Author
Lise Ramambason
  • Function : Author
Alessandro Razza
  • Function : Author
Andrea Romanelli
  • Function : Author
Erik Rosolowsky
  • Function : Author
Marina Ruiz-García
  • Function : Author
Patricia Sánchez-Blázquez
  • Function : Author
Rowan Smith
  • Function : Author
Sophia Stuber
  • Function : Author
Leonardo Ubeda
  • Function : Author
Antonio Usero
  • Function : Author
Thomas G. Williams
  • Function : Author

Abstract

Spiral arms, as those of our own Milky Way, are some of the most spectacular features in disc galaxies. It has been argued that star formation should proceed more efficiently in spiral arms as a result of gas compression. Yet, observational studies have so far yielded contradictory results. Here, we examine arm/interarm surface density contrasts at ∼100 pc resolution in 28 spiral galaxies from the PHANGS survey. We find that the arm/interarm contrast in stellar mass surface density (Σ) is very modest, typically a few tens of percent. This is much smaller than the contrasts measured for molecular gas (Σmol) or star formation rate (ΣSFR) surface density, which typically reach a factor of ∼2 − 3. However, Σmol and ΣSFR contrasts show a significant correlation with the enhancement in Σ, suggesting that the small stellar contrast largely dictates the stronger accumulation of gas and star formation. All these contrasts increase for grand-design spirals compared to multi-armed and flocculent systems (and for galaxies with high stellar mass). The median star formation efficiency (SFE) of the molecular gas is 16% higher in spiral arms than in interarm regions, with a large scatter, and the contrast increases significantly (median SFE contrast 2.34) for regions of particularly enhanced stellar contrast (Σ contrast > 1.97). The molecular-to-atomic gas ratio (Σmolatom) is higher in spiral arms, pointing to a transformation of atomic to molecular gas. As a consequence, the total gas contrast (Σmol + Σatom) slightly drops compared to Σmol (median 4% lower, working at ∼kpc resolution), while the SFE contrast increases when we include atomic gas (median 8% higher than for Σmol). The contrasts show important fluctuations with galactocentric radius. We confirm that our results are robust against a number of effects, such as spiral mask width, tracers, resolution, and binning. In conclusion, the boost in the SFE of molecular gas in spiral arms is generally modest or absent, except for locations with exceptionally large stellar contrasts.
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insu-04822456 , version 1 (06-12-2024)

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Miguel Querejeta, Adam K. Leroy, Sharon E. Meidt, Eva Schinnerer, Francesco Belfiore, et al.. Do spiral arms enhance star formation efficiency?. Astronomy & Astrophysics - A&A, 2024, 687, ⟨10.1051/0004-6361/202449733⟩. ⟨insu-04822456⟩
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