The KMOS3DSurvey: Investigating the Origin of the Elevated Electron Densities in Star-forming Galaxies at 1 ≲ z ≲ 3

We investigate what drives the redshift evolution of the typical electron density (n e ) in star-forming galaxies, using a sample of 140 galaxies drawn primarily from KMOS3D (0.6 < z < 2.6) and 471 galaxies from SAMI (z < 0.113). We select galaxies that do not show evidence of active galact...

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Bibliographic Details
Published in:The Astrophysical Journal
Main Authors: Davies R. L., Schreiber N. M. F., Genzel R., Shimizu T. T., Davies R. I., Schruba A., Tacconi L. J., Obler H., Wisnioski E., Wuyts S., Fossati M., Herrera-Camus R., Lutz D., Mendel J. T., Naab T., Price S. H., Renzini A., Wilman D., Beifiori A., Belli S., Burkert A., Chan J., Contursi A., Fabricius M., Lee M. M., Saglia R. P., Sternberg A.
Other Authors: Davies, R, Schreiber, N, Genzel, R, Shimizu, T, Schruba, A, Tacconi, L, Obler, H, Wisnioski, E, Wuyts, S, Fossati, M, Herrera-Camus, R, Lutz, D, Mendel, J, Naab, T, Price, S, Renzini, A, Wilman, D, Beifiori, A, Belli, S, Burkert, A, Chan, J, Contursi, A, Fabricius, M, Lee, M, Saglia, R, Sternberg, A
Format: Article in Journal/Newspaper
Language:English
Published: IOP Publishing Ltd 2021
Subjects:
galaxie
kinematic
galaxy evolution
sami
Online Access:http://hdl.handle.net/10281/324947
https://doi.org/10.3847/1538-4357/abd551
Description
Summary:We investigate what drives the redshift evolution of the typical electron density (n e ) in star-forming galaxies, using a sample of 140 galaxies drawn primarily from KMOS3D (0.6 < z < 2.6) and 471 galaxies from SAMI (z < 0.113). We select galaxies that do not show evidence of active galactic nucleus activity or outflows to constrain the average conditions within H ii regions. Measurements of the [S ii]λ6716/[S ii]λ6731 ratio in four redshift bins indicate that the local n e in the line-emitting material decreases from 187-132+140 cm-3 at z ∼ 2.2 to 32-9+4 cm-3 at z ∼ 0, consistent with previous results. We use the Hα luminosity to estimate the rms n e averaged over the volumes of star-forming disks at each redshift. The local and volume-averaged n e evolve at similar rates, hinting that the volume filling factor of the line-emitting gas may be approximately constant across 0 ≲ z ≲ 2.6. The KMOS3D and SAMI galaxies follow a roughly monotonic trend between n e and star formation rate, but the KMOS3D galaxies have systematically higher n e than the SAMI galaxies at a fixed offset from the star-forming main sequence, suggesting a link between the n e evolution and the evolving main sequence normalization. We quantitatively test potential drivers of the density evolution and find that n e (rms) nH2, suggesting that the elevated n e in high-z H ii regions could plausibly be the direct result of higher densities in the parent molecular clouds. There is also tentative evidence that n e could be influenced by the balance between stellar feedback, which drives the expansion of H ii regions, and the ambient pressure, which resists their expansion.

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