Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies

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Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies. / Puglisi, Annagrazia; Daddi, Emanuele; Valentino, Francesco; Magdis, Georgios; Liu, Daizhong; Kokorev, Vasily; Circosta, Chiara; Elbaz, David; Bournaud, Frederic; Gomez-Guijarro, Carlos; Jin, Shuowen; Madden, Suzanne; Sargent, Mark T.; Swinbank, Mark.

In: Monthly Notices of the Royal Astronomical Society, Vol. 508, No. 4, 13.10.2021, p. 5217-5238.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Puglisi, A, Daddi, E, Valentino, F, Magdis, G, Liu, D, Kokorev, V, Circosta, C, Elbaz, D, Bournaud, F, Gomez-Guijarro, C, Jin, S, Madden, S, Sargent, MT & Swinbank, M 2021, 'Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies', Monthly Notices of the Royal Astronomical Society, vol. 508, no. 4, pp. 5217-5238. https://doi.org/10.1093/mnras/stab2914

APA

Puglisi, A., Daddi, E., Valentino, F., Magdis, G., Liu, D., Kokorev, V., Circosta, C., Elbaz, D., Bournaud, F., Gomez-Guijarro, C., Jin, S., Madden, S., Sargent, M. T., & Swinbank, M. (2021). Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies. Monthly Notices of the Royal Astronomical Society, 508(4), 5217-5238. https://doi.org/10.1093/mnras/stab2914

Vancouver

Puglisi A, Daddi E, Valentino F, Magdis G, Liu D, Kokorev V et al. Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies. Monthly Notices of the Royal Astronomical Society. 2021 Oct 13;508(4):5217-5238. https://doi.org/10.1093/mnras/stab2914

Author

Puglisi, Annagrazia ; Daddi, Emanuele ; Valentino, Francesco ; Magdis, Georgios ; Liu, Daizhong ; Kokorev, Vasily ; Circosta, Chiara ; Elbaz, David ; Bournaud, Frederic ; Gomez-Guijarro, Carlos ; Jin, Shuowen ; Madden, Suzanne ; Sargent, Mark T. ; Swinbank, Mark. / Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies. In: Monthly Notices of the Royal Astronomical Society. 2021 ; Vol. 508, No. 4. pp. 5217-5238.

Bibtex

@article{ae43d04d5d1c4dd78ea46253cbf2527f,
title = "Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies",
abstract = "We study the interstellar medium (ISM) properties as a function of the molecular gas size for 77 infrared-selected galaxies at z similar to 1.3, having stellar masses 10(9.4) less than or similar to M-star less than or similar to 10(12.0) M-circle dot and star formation rates 12 less than or similar to SFRFIR less than or similar to 1000 M-circle dot yr(-1). Molecular gas sizes are measured on ALMA images that combine CO(2-1), CO(5-4), and underlying continuum observations, and include CO(4-3), CO(7-6) + [CI](P-3(2) - P-3(1)), [CI](P-3(1) - P-3(0)) observations for a subset of the sample. The 46 per cent of our galaxies have a compact molecular gas reservoir, and lie below the optical discs mass-size relation. Compact galaxies on and above the main sequence have higher CO excitation and star formation efficiency than galaxies with extended molecular gas reservoirs, as traced by CO(5-4)/CO(2-1) and CO(2-1)/L-IR,L- SF ratios. Average CO + [CI] spectral line energy distributions indicate higher excitation in compacts relative to extended sources. Using CO(2-1) and dust masses as molecular gas mass tracers, and conversion factors tailored to their ISM conditions, we measure lower gas fractions in compact main-sequence galaxies compared to extended sources. We suggest that the submillimetre compactness, defined as the ratio between the molecular gas and the stellar size, is an unavoidable information to be used with the main sequence offset to describe the ISM properties of galaxies, at least above M-star >= 10(10.6) M-circle dot, where our observations fully probe the main sequence scatter. Our results are consistent with mergers driving the gas in the nuclear regions, enhancing the CO excitation and star formation efficiency. Compact main-sequence galaxies are consistent with being an early post-starburst population following a merger-driven starburst episode, stressing the important role of mergers in the evolution of massive galaxies.",
keywords = "galaxies: evolution, galaxies: star formation, galaxies: ISM, MOLECULAR GAS PROPERTIES, INTERSTELLAR-MEDIUM CONDITIONS, ALMA SPECTROSCOPIC SURVEY, FMOS-COSMOS SURVEY, SIMILAR-TO 1.6, H-ALPHA MAPS, MULTI-J CO, STARBURST GALAXIES, PHYSICAL CONDITIONS, CONVERSION FACTOR",
author = "Annagrazia Puglisi and Emanuele Daddi and Francesco Valentino and Georgios Magdis and Daizhong Liu and Vasily Kokorev and Chiara Circosta and David Elbaz and Frederic Bournaud and Carlos Gomez-Guijarro and Shuowen Jin and Suzanne Madden and Sargent, {Mark T.} and Mark Swinbank",
year = "2021",
month = oct,
day = "13",
doi = "10.1093/mnras/stab2914",
language = "English",
volume = "508",
pages = "5217--5238",
journal = "Royal Astronomical Society. Monthly Notices",
issn = "0035-8711",
publisher = "Oxford University Press",
number = "4",

}

RIS

TY - JOUR

T1 - Submillimetre compactness as a critical dimension to understand the main sequence of star-forming galaxies

AU - Puglisi, Annagrazia

AU - Daddi, Emanuele

AU - Valentino, Francesco

AU - Magdis, Georgios

AU - Liu, Daizhong

AU - Kokorev, Vasily

AU - Circosta, Chiara

AU - Elbaz, David

AU - Bournaud, Frederic

AU - Gomez-Guijarro, Carlos

AU - Jin, Shuowen

AU - Madden, Suzanne

AU - Sargent, Mark T.

AU - Swinbank, Mark

PY - 2021/10/13

Y1 - 2021/10/13

N2 - We study the interstellar medium (ISM) properties as a function of the molecular gas size for 77 infrared-selected galaxies at z similar to 1.3, having stellar masses 10(9.4) less than or similar to M-star less than or similar to 10(12.0) M-circle dot and star formation rates 12 less than or similar to SFRFIR less than or similar to 1000 M-circle dot yr(-1). Molecular gas sizes are measured on ALMA images that combine CO(2-1), CO(5-4), and underlying continuum observations, and include CO(4-3), CO(7-6) + [CI](P-3(2) - P-3(1)), [CI](P-3(1) - P-3(0)) observations for a subset of the sample. The 46 per cent of our galaxies have a compact molecular gas reservoir, and lie below the optical discs mass-size relation. Compact galaxies on and above the main sequence have higher CO excitation and star formation efficiency than galaxies with extended molecular gas reservoirs, as traced by CO(5-4)/CO(2-1) and CO(2-1)/L-IR,L- SF ratios. Average CO + [CI] spectral line energy distributions indicate higher excitation in compacts relative to extended sources. Using CO(2-1) and dust masses as molecular gas mass tracers, and conversion factors tailored to their ISM conditions, we measure lower gas fractions in compact main-sequence galaxies compared to extended sources. We suggest that the submillimetre compactness, defined as the ratio between the molecular gas and the stellar size, is an unavoidable information to be used with the main sequence offset to describe the ISM properties of galaxies, at least above M-star >= 10(10.6) M-circle dot, where our observations fully probe the main sequence scatter. Our results are consistent with mergers driving the gas in the nuclear regions, enhancing the CO excitation and star formation efficiency. Compact main-sequence galaxies are consistent with being an early post-starburst population following a merger-driven starburst episode, stressing the important role of mergers in the evolution of massive galaxies.

AB - We study the interstellar medium (ISM) properties as a function of the molecular gas size for 77 infrared-selected galaxies at z similar to 1.3, having stellar masses 10(9.4) less than or similar to M-star less than or similar to 10(12.0) M-circle dot and star formation rates 12 less than or similar to SFRFIR less than or similar to 1000 M-circle dot yr(-1). Molecular gas sizes are measured on ALMA images that combine CO(2-1), CO(5-4), and underlying continuum observations, and include CO(4-3), CO(7-6) + [CI](P-3(2) - P-3(1)), [CI](P-3(1) - P-3(0)) observations for a subset of the sample. The 46 per cent of our galaxies have a compact molecular gas reservoir, and lie below the optical discs mass-size relation. Compact galaxies on and above the main sequence have higher CO excitation and star formation efficiency than galaxies with extended molecular gas reservoirs, as traced by CO(5-4)/CO(2-1) and CO(2-1)/L-IR,L- SF ratios. Average CO + [CI] spectral line energy distributions indicate higher excitation in compacts relative to extended sources. Using CO(2-1) and dust masses as molecular gas mass tracers, and conversion factors tailored to their ISM conditions, we measure lower gas fractions in compact main-sequence galaxies compared to extended sources. We suggest that the submillimetre compactness, defined as the ratio between the molecular gas and the stellar size, is an unavoidable information to be used with the main sequence offset to describe the ISM properties of galaxies, at least above M-star >= 10(10.6) M-circle dot, where our observations fully probe the main sequence scatter. Our results are consistent with mergers driving the gas in the nuclear regions, enhancing the CO excitation and star formation efficiency. Compact main-sequence galaxies are consistent with being an early post-starburst population following a merger-driven starburst episode, stressing the important role of mergers in the evolution of massive galaxies.

KW - galaxies: evolution

KW - galaxies: star formation

KW - galaxies: ISM

KW - MOLECULAR GAS PROPERTIES

KW - INTERSTELLAR-MEDIUM CONDITIONS

KW - ALMA SPECTROSCOPIC SURVEY

KW - FMOS-COSMOS SURVEY

KW - SIMILAR-TO 1.6

KW - H-ALPHA MAPS

KW - MULTI-J CO

KW - STARBURST GALAXIES

KW - PHYSICAL CONDITIONS

KW - CONVERSION FACTOR

U2 - 10.1093/mnras/stab2914

DO - 10.1093/mnras/stab2914

M3 - Journal article

VL - 508

SP - 5217

EP - 5238

JO - Royal Astronomical Society. Monthly Notices

JF - Royal Astronomical Society. Monthly Notices

SN - 0035-8711

IS - 4

ER -

ID: 285307424