JINGLE – IV. Dust, H i gas, and metal scaling laws in the local Universe Journal Articles uri icon

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abstract

  • ABSTRACT Scaling laws of dust, H i gas, and metal mass with stellar mass, specific star formation rate, and metallicity are crucial to our understanding of the build-up of galaxies through their enrichment with metals and dust. In this work, we analyse how the dust and metal content varies with specific gas mass (MH i/M⋆) across a diverse sample of 423 nearby galaxies. The observed trends are interpreted with a set of Dust and Element evolUtion modelS (DEUS) – including stellar dust production, grain growth, and dust destruction – within a Bayesian framework to enable a rigorous search of the multidimensional parameter space. We find that these scaling laws for galaxies with −1.0 ≲ log MH i/M⋆ ≲ 0 can be reproduced using closed-box models with high fractions (37–89 ${{\ \rm per\ cent}}$) of supernova dust surviving a reverse shock, relatively low grain growth efficiencies (ϵ = 30–40), and long dust lifetimes (1–2 Gyr). The models have present-day dust masses with similar contributions from stellar sources (50–80 ${{\ \rm per\ cent}}$) and grain growth (20–50 ${{\ \rm per\ cent}}$). Over the entire lifetime of these galaxies, the contribution from stardust (>90 ${{\ \rm per\ cent}}$) outweighs the fraction of dust grown in the interstellar medium (<10 ${{\ \rm per\ cent}}$). Our results provide an alternative for the chemical evolution models that require extremely low supernova dust production efficiencies and short grain growth time-scales to reproduce local scaling laws, and could help solving the conundrum on whether or not grains can grow efficiently in the interstellar medium.

authors

  • De Looze, I
  • Lamperti, I
  • Saintonge, A
  • Relaño, M
  • Smith, MWL
  • Clark, CJR
  • Wilson, Christine D
  • Decleir, M
  • Jones, AP
  • Kennicutt, RC
  • Accurso, G
  • Brinks, E
  • Bureau, M
  • Cigan, P
  • Clements, DL
  • De Vis, P
  • Fanciullo, L
  • Gao, Y
  • Gear, WK
  • Ho, LC
  • Hwang, HS
  • Michałowski, MJ
  • Lee, JC
  • Li, C
  • Lin, L
  • Liu, T
  • Lomaeva, M
  • Pan, H-A
  • Sargent, M
  • Williams, T
  • Xiao, T
  • Zhu, M

publication date

  • August 11, 2020