Stellar associations powering H II regions – I. Defining an evolutionary sequence

Fabian Scheuermann; Kathryn Kreckel; Ashley T. Barnes; Francesco Belfiore; Brent Groves; Stephen Hannon; Janice C. Lee; Rebecca Minsley; Erik Rosolowsky; Frank Bigiel; Guillermo A. Blanc; Médéric Boquien; Daniel A. Dale; Sinan Deger; Oleg V. Egorov; Eric Emsellem; Simon C.O. Glover; Kathryn Grasha; Hamid Hassani; Sarah M.R. Jeffreson; Ralf S. Klessen; J. M.Diederik Kruijssen; Kirsten L. Larson; Adam K. Leroy; Laura A. Lopez; Hsi An Pan; Patricia Sánchez-Blázquez; Francesco Santoro; Eva Schinnerer; David A. Thilker; Bradley C. Whitmore; Elizabeth J. Watkins; Thomas G. Williams

doi:10.1093/mnras/stad878

Stellar associations powering H II regions – I. Defining an evolutionary sequence

Fabian Scheuermann^*, Kathryn Kreckel, Ashley T. Barnes, Francesco Belfiore, Brent Groves, Stephen Hannon, Janice C. Lee, Rebecca Minsley, Erik Rosolowsky, Frank Bigiel, Guillermo A. Blanc, Médéric Boquien, Daniel A. Dale, Sinan Deger, Oleg V. Egorov, Eric Emsellem, Simon C.O. Glover, Kathryn Grasha, Hamid Hassani, Sarah M.R. JeffresonRalf S. Klessen, J. M.Diederik Kruijssen, Kirsten L. Larson, Adam K. Leroy, Laura A. Lopez, Hsi An Pan, Patricia Sánchez-Blázquez, Francesco Santoro, Eva Schinnerer, David A. Thilker, Bradley C. Whitmore, Elizabeth J. Watkins, Thomas G. Williams

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Connecting the gas in H II regions to the underlying source of the ionizing radiation can help us constrain the physical processes of stellar feedback and how H II regions evolve over time. With PHANGS–MUSE, we detect nearly 24 000 H II regions across 19 galaxies and measure the physical properties of the ionized gas (e.g. metallicity, ionization parameter, and density). We use catalogues of multiscale stellar associations from PHANGS–HST to obtain constraints on the age of the ionizing sources. We construct a matched catalogue of 4177 H II regions that are clearly linked to a single ionizing association. A weak anticorrelation is observed between the association ages and the H α equivalent width EW(H α), the H α/FUV flux ratio, and the ionization parameter, log q. As all three are expected to decrease as the stellar population ages, this could indicate that we observe an evolutionary sequence. This interpretation is further supported by correlations between all three properties. Interpreting these as evolutionary tracers, we find younger nebulae to be more attenuated by dust and closer to giant molecular clouds, in line with recent models of feedback-regulated star formation. We also observe strong correlations with the local metallicity variations and all three proposed age tracers, suggestive of star formation preferentially occurring in locations of locally enhanced metallicity. Overall, EW(H α) and log q show the most consistent trends and appear to be most reliable tracers for the age of an H II region.

Original language	English
Pages (from-to)	2369-2383
Number of pages	15
Journal	Monthly Notices of the Royal Astronomical Society
Volume	522
Issue number	2
DOIs	https://doi.org/10.1093/mnras/stad878
Publication status	Published - 1 Jun 2023

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Scheuermann, F., Kreckel, K., Barnes, A. T., Belfiore, F., Groves, B., Hannon, S., Lee, J. C., Minsley, R., Rosolowsky, E., Bigiel, F., Blanc, G. A., Boquien, M., Dale, D. A., Deger, S., Egorov, O. V., Emsellem, E., Glover, S. C. O., Grasha, K., Hassani, H., ... Williams, T. G. (2023). Stellar associations powering H II regions – I. Defining an evolutionary sequence. Monthly Notices of the Royal Astronomical Society, 522(2), 2369-2383. https://doi.org/10.1093/mnras/stad878

@article{306a881807f14d819c3a5f68f0ad4d55,

title = "Stellar associations powering H II regions – I. Defining an evolutionary sequence",

abstract = "Connecting the gas in H II regions to the underlying source of the ionizing radiation can help us constrain the physical processes of stellar feedback and how H II regions evolve over time. With PHANGS–MUSE, we detect nearly 24 000 H II regions across 19 galaxies and measure the physical properties of the ionized gas (e.g. metallicity, ionization parameter, and density). We use catalogues of multiscale stellar associations from PHANGS–HST to obtain constraints on the age of the ionizing sources. We construct a matched catalogue of 4177 H II regions that are clearly linked to a single ionizing association. A weak anticorrelation is observed between the association ages and the H α equivalent width EW(H α), the H α/FUV flux ratio, and the ionization parameter, log q. As all three are expected to decrease as the stellar population ages, this could indicate that we observe an evolutionary sequence. This interpretation is further supported by correlations between all three properties. Interpreting these as evolutionary tracers, we find younger nebulae to be more attenuated by dust and closer to giant molecular clouds, in line with recent models of feedback-regulated star formation. We also observe strong correlations with the local metallicity variations and all three proposed age tracers, suggestive of star formation preferentially occurring in locations of locally enhanced metallicity. Overall, EW(H α) and log q show the most consistent trends and appear to be most reliable tracers for the age of an H II region.",

keywords = "H II regions, galaxies: ISM, galaxies: star clusters: general",

author = "Fabian Scheuermann and Kathryn Kreckel and Barnes, {Ashley T.} and Francesco Belfiore and Brent Groves and Stephen Hannon and Lee, {Janice C.} and Rebecca Minsley and Erik Rosolowsky and Frank Bigiel and Blanc, {Guillermo A.} and M{\'e}d{\'e}ric Boquien and Dale, {Daniel A.} and Sinan Deger and Egorov, {Oleg V.} and Eric Emsellem and Glover, {Simon C.O.} and Kathryn Grasha and Hamid Hassani and Jeffreson, {Sarah M.R.} and Klessen, {Ralf S.} and Kruijssen, {J. M.Diederik} and Larson, {Kirsten L.} and Leroy, {Adam K.} and Lopez, {Laura A.} and Pan, {Hsi An} and Patricia S{\'a}nchez-Bl{\'a}zquez and Francesco Santoro and Eva Schinnerer and Thilker, {David A.} and Whitmore, {Bradley C.} and Watkins, {Elizabeth J.} and Williams, {Thomas G.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society",

year = "2023",

month = jun,

day = "1",

doi = "10.1093/mnras/stad878",

language = "English",

volume = "522",

pages = "2369--2383",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press ",

number = "2",

}

Scheuermann, F, Kreckel, K, Barnes, AT, Belfiore, F, Groves, B, Hannon, S, Lee, JC, Minsley, R, Rosolowsky, E, Bigiel, F, Blanc, GA, Boquien, M, Dale, DA, Deger, S, Egorov, OV, Emsellem, E, Glover, SCO, Grasha, K, Hassani, H, Jeffreson, SMR, Klessen, RS, Kruijssen, JMD, Larson, KL, Leroy, AK, Lopez, LA, Pan, HA, Sánchez-Blázquez, P, Santoro, F, Schinnerer, E, Thilker, DA, Whitmore, BC, Watkins, EJ & Williams, TG 2023, 'Stellar associations powering H II regions – I. Defining an evolutionary sequence', Monthly Notices of the Royal Astronomical Society, vol. 522, no. 2, pp. 2369-2383. https://doi.org/10.1093/mnras/stad878

TY - JOUR

T1 - Stellar associations powering H II regions – I. Defining an evolutionary sequence

AU - Scheuermann, Fabian

AU - Kreckel, Kathryn

AU - Barnes, Ashley T.

AU - Belfiore, Francesco

AU - Groves, Brent

AU - Hannon, Stephen

AU - Lee, Janice C.

AU - Minsley, Rebecca

AU - Rosolowsky, Erik

AU - Bigiel, Frank

AU - Blanc, Guillermo A.

AU - Boquien, Médéric

AU - Dale, Daniel A.

AU - Deger, Sinan

AU - Egorov, Oleg V.

AU - Emsellem, Eric

AU - Glover, Simon C.O.

AU - Grasha, Kathryn

AU - Hassani, Hamid

AU - Jeffreson, Sarah M.R.

AU - Klessen, Ralf S.

AU - Kruijssen, J. M.Diederik

AU - Larson, Kirsten L.

AU - Leroy, Adam K.

AU - Lopez, Laura A.

AU - Pan, Hsi An

AU - Sánchez-Blázquez, Patricia

AU - Santoro, Francesco

AU - Schinnerer, Eva

AU - Thilker, David A.

AU - Whitmore, Bradley C.

AU - Watkins, Elizabeth J.

AU - Williams, Thomas G.

PY - 2023/6/1

Y1 - 2023/6/1

N2 - Connecting the gas in H II regions to the underlying source of the ionizing radiation can help us constrain the physical processes of stellar feedback and how H II regions evolve over time. With PHANGS–MUSE, we detect nearly 24 000 H II regions across 19 galaxies and measure the physical properties of the ionized gas (e.g. metallicity, ionization parameter, and density). We use catalogues of multiscale stellar associations from PHANGS–HST to obtain constraints on the age of the ionizing sources. We construct a matched catalogue of 4177 H II regions that are clearly linked to a single ionizing association. A weak anticorrelation is observed between the association ages and the H α equivalent width EW(H α), the H α/FUV flux ratio, and the ionization parameter, log q. As all three are expected to decrease as the stellar population ages, this could indicate that we observe an evolutionary sequence. This interpretation is further supported by correlations between all three properties. Interpreting these as evolutionary tracers, we find younger nebulae to be more attenuated by dust and closer to giant molecular clouds, in line with recent models of feedback-regulated star formation. We also observe strong correlations with the local metallicity variations and all three proposed age tracers, suggestive of star formation preferentially occurring in locations of locally enhanced metallicity. Overall, EW(H α) and log q show the most consistent trends and appear to be most reliable tracers for the age of an H II region.

AB - Connecting the gas in H II regions to the underlying source of the ionizing radiation can help us constrain the physical processes of stellar feedback and how H II regions evolve over time. With PHANGS–MUSE, we detect nearly 24 000 H II regions across 19 galaxies and measure the physical properties of the ionized gas (e.g. metallicity, ionization parameter, and density). We use catalogues of multiscale stellar associations from PHANGS–HST to obtain constraints on the age of the ionizing sources. We construct a matched catalogue of 4177 H II regions that are clearly linked to a single ionizing association. A weak anticorrelation is observed between the association ages and the H α equivalent width EW(H α), the H α/FUV flux ratio, and the ionization parameter, log q. As all three are expected to decrease as the stellar population ages, this could indicate that we observe an evolutionary sequence. This interpretation is further supported by correlations between all three properties. Interpreting these as evolutionary tracers, we find younger nebulae to be more attenuated by dust and closer to giant molecular clouds, in line with recent models of feedback-regulated star formation. We also observe strong correlations with the local metallicity variations and all three proposed age tracers, suggestive of star formation preferentially occurring in locations of locally enhanced metallicity. Overall, EW(H α) and log q show the most consistent trends and appear to be most reliable tracers for the age of an H II region.

KW - H II regions

KW - galaxies: ISM

KW - galaxies: star clusters: general

UR - http://www.scopus.com/inward/record.url?scp=85163081446&partnerID=8YFLogxK

U2 - 10.1093/mnras/stad878

DO - 10.1093/mnras/stad878

M3 - Article

SN - 0035-8711

VL - 522

SP - 2369

EP - 2383

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

Stellar associations powering H II regions – I. Defining an evolutionary sequence

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