ZFIRE: Measuring Electron Density with [O ii] as a Function of Environment at z=1.62
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Harshan, Anishya
Gupta, Anshu
Tran, Kim-Vy
Alcorn, Leo Y.
Yuan, Tiantian
Kacprzak, Glenn
Nanayakkara, Themiya
Glazebrook , Karl
Kewley, Lisa
Labbe, Ivo
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IOP Publishing
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The global star formation rates (SFR) of galaxies at fixed stellar masses increase with redshift and are known to vary with environment up to z ∼ 2. We explore here whether the changes in the SFRs also apply to the electron densities of the interstellar medium by measuring the [O ii] ($\lambda 3726$, $\lambda 3729$) ratio for cluster and field galaxies at z ∼ 2. We measure a median electron density of ${n}_{{\rm{e}}}$ = 366 ± 84 cm${}^{-3}$ for six galaxies (with 1σ scatter = 163 cm${}^{-3}$) in the Ultra-Deep Survey (UDS) protocluster at z = 1.62. We find that the median electron density of galaxies in the UDS protocluster environment is three times higher compared to the median electron density of field galaxies (${n}_{{\rm{e}}}$ = 113 ± 63 cm${}^{-3}$ and 1σ scatter = 79 cm${}^{-3}$) at comparable redshifts, stellar mass, and SFR. However, we note that a sample of six protocluster galaxies is insufficient to reliably measure the electron density in the average protocluster environment at z ∼ 2. We conclude that the electron density increases with redshift in both cluster and field environments up to z ∼ 2 (${n}_{{\rm{e}}}$ = 30 ± 1 cm${}^{-3}$ for z ∼ 0 to ${n}_{{\rm{e}}}$ = 254 ± 76 cm${}^{-3}$ for z ∼ 1.5). We find tentative evidence (∼2.6σ) for a possible dependence of electron density on environment, but the results require confirmation with larger sample sizes.
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The Astrophysical Journal
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