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COSMOS2020: Disentangling the Role of Mass and Environment in Star Formation Activity of Galaxies at 0.4 < z < 4

by Capak, Peter L , Taamoli, Sina , Chartab, Nima , Gozaliasl, Ghassem , Scoville, Nicholas , Weaver, John R , Manesh, Faezeh , Casey, Caitlin M , Ilbert, Olivier , Heintz, Kasper E , Mobasher, Bahram , Nezhad, Negin , McCracken, Henry J , Toft, Sune , Kartaltepe, Jeyhan S , Sanders, David B , Watson, Darach

in Cold gas / Density / Environmental effects / Environmental factors / Environmental impact / Galaxies / Quenching / Red shift / Star & galaxy formation / Star formation / Star formation rate / Stars / Stellar mass / Tidal effects

2024

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COSMOS2020: Disentangling the Role of Mass and Environment in Star Formation Activity of Galaxies at 0.4 < z < 4

2024

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COSMOS2020: Disentangling the Role of Mass and Environment in Star Formation Activity of Galaxies at 0.4 < z < 4

2024

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Journal Article

COSMOS2020: Disentangling the Role of Mass and Environment in Star Formation Activity of Galaxies at 0.4 < z < 4

Capak, Peter L,

Taamoli, Sina,

Chartab, Nima,

Gozaliasl, Ghassem,

Scoville, Nicholas,

Weaver, John R,

Manesh, Faezeh,

Casey, Caitlin M,

Ilbert, Olivier,

Heintz, Kasper E,

Mobasher, Bahram,

Nezhad, Negin,

McCracken, Henry J,

Toft, Sune,

Kartaltepe, Jeyhan S,

Sanders, David B,

Watson, Darach

2024

Overview

The role of internal and environmental factors in the star formation activity of galaxies is still a matter of debate, in particular at higher redshifts. Leveraging the most recent release of the COSMOS catalog, COSMOS2020, as well as density measurements from our previous study, we disentangle the impact of environment and stellar mass on the star formation rate (SFR) and specific SFR (sSFR) of a sample of ∼210,000 galaxies within a redshift range of 0.4 < z < 4, and present our findings in three cosmic epochs: (1) out to z ∼ 1, the average SFR and sSFR decline in extremely dense environments and at the high-mass end of the distribution, which is mostly due to the presence of the massive quiescent population; (2) at 1 < z < 2, the environmental dependence diminishes, while mass is still the dominant factor in star formation activity; and (3) beyond z ∼ 2, our sample is dominated by star-forming galaxies and we observe a reversal of the trends seen in the local Universe—the average SFR increases with increasing environmental density. Our analysis shows that both environmental and mass quenching efficiencies increase with stellar mass at all redshifts, with mass being the dominant quenching factor in massive galaxies compared to environmental effects. At 2 < z < 4, negative values of environmental quenching efficiency suggest that the fraction of star-forming galaxies in dense environments exceeds that in less-dense regions, likely due to the greater availability of cold gas, higher merger rates, and tidal effects that trigger star formation activity.

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Publisher

IOP Publishing

Subject

Cold gas

/ Density

/ Environmental effects

/ Environmental factors

/ Environmental impact

/ Galaxies

/ Quenching