The Astrophysical Journal Letters (Jan 2023)

PHANGS–JWST First Results: Variations in PAH Fraction as a Function of ISM Phase and Metallicity

  • Jérémy Chastenet,
  • Jessica Sutter,
  • Karin Sandstrom,
  • Francesco Belfiore,
  • Oleg V. Egorov,
  • Kirsten L. Larson,
  • Adam K. Leroy,
  • Daizhong Liu,
  • Erik Rosolowsky,
  • David A. Thilker,
  • Elizabeth J. Watkins,
  • Thomas G. Williams,
  • Ashley. T. Barnes,
  • Frank Bigiel,
  • Médéric Boquien,
  • Mélanie Chevance,
  • I-Da Chiang,
  • Daniel A. Dale,
  • J. M. Diederik Kruijssen,
  • Eric Emsellem,
  • Kathryn Grasha,
  • Brent Groves,
  • Hamid Hassani,
  • Annie Hughes,
  • Kathryn Kreckel,
  • Sharon E. Meidt,
  • Ryan J. Rickards Vaught,
  • Amy Sardone,
  • Eva Schinnerer

DOI
https://doi.org/10.3847/2041-8213/acadd7
Journal volume & issue
Vol. 944, no. 2
p. L11

Abstract

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We present maps tracing the fraction of dust in the form of polycyclic aromatic hydrocarbons (PAHs) in IC 5332, NGC 628, NGC 1365, and NGC 7496 from JWST/MIRI observations. We trace the PAH fraction by combining the F770W (7.7 μ m) and F1130W (11.3 μ m) filters to track ionized and neutral PAH emission, respectively, and comparing the PAH emission to F2100W, which traces small, hot dust grains. We find the average R _PAH = (F770W + F1130W)/F2100W values of 3.3, 4.7, 5.1, and 3.6 in IC 5332, NGC 628, NGC 1365, and NGC 7496, respectively. We find that H ii regions traced by MUSE H α show a systematically low PAH fraction. The PAH fraction remains relatively constant across other galactic environments, with slight variations. We use CO+H i +H α to trace the interstellar gas phase and find that the PAH fraction decreases above a value of ${{\rm{I}}}_{{\rm{H}}\alpha }/{{\rm{\Sigma }}}_{{\rm{H}}{\rm\small{I}}+{{\rm{H}}}_{2}}\sim {10}^{37.5}\,\mathrm{erg}\,{{\rm{s}}}^{-1}\,{\mathrm{kpc}}^{-2}\,{({M}_{\odot }\,{\mathrm{pc}}^{-2})}^{-1}$ in all four galaxies. Radial profiles also show a decreasing PAH fraction with increasing radius, correlated with lower metallicity, in line with previous results showing a strong metallicity dependence to the PAH fraction. Our results suggest that the process of PAH destruction in ionized gas operates similarly across the four targets.

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