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1. The NIRVANDELS Survey: a robust detection of α-enhancement in star-forming galaxies at z ≃ 3.4

   https://doi.org/10.1093/mnras/stab1340  

   Cullen, F; Shapley, A E; McLure, R J; Dunlop, J S; Sanders, R L; Topping, M W; Reddy, N A; Amorín, R; Begley, R; Bolzonella, M; et al (May 2021, Monthly Notices of the Royal Astronomical Society)

   ABSTRACT We present results from the NIRVANDELS survey on the gas-phase metallicity (Zg, tracing O/H) and stellar metallicity (Z⋆, tracing Fe/H) of 33 star-forming galaxies at redshifts 2.95 < z < 3.80. Based on a combined analysis of deep optical and near-IR spectra, tracing the rest-frame far-ultraviolet (FUV; 1200–2000 Å) and rest-frame optical (3400–5500 Å), respectively, we present the first simultaneous determination of the stellar and gas-phase mass–metallicity relationships (MZRs) at z ≃ 3.4. In both cases, we find that metallicity increases with increasing stellar mass (M⋆) and that the power-law slope at M⋆ ≲ 1010M⊙ of both MZRs scales as $$Z \propto M_{\star }^{0.3}$$. Comparing the stellar and gas-phase MZRs, we present direct evidence for super-solar O/Fe ratios (i.e. α-enhancement) at z > 3, finding (O/Fe) = 2.54 ± 0.38 × (O/Fe)⊙, with no clear dependence on M⋆. 

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2. The MOSDEF survey: the mass–metallicity relationship and the existence of the FMR at z ∼ 1.5

   https://doi.org/10.1093/mnras/stab1793  

   Topping, Michael W; Shapley, Alice E; Sanders, Ryan L; Kriek, Mariska; Reddy, Naveen A; Coil, Alison L; Mobasher, Bahram; Siana, Brian; Freeman, William R; Shivaei, Irene; et al (July 2021, Monthly Notices of the Royal Astronomical Society)

   ABSTRACT We analyse the rest-optical emission-line ratios of z ∼ 1.5 galaxies drawn from the Multi-Object Spectrometer for Infra-Red Exploration Deep Evolution Field (MOSDEF) survey. Using composite spectra, we investigate the mass–metallicity relation (MZR) at z ∼ 1.5 and measure its evolution to z = 0. When using gas-phase metallicities based on the N2 line ratio, we find that the MZR evolution from z ∼ 1.5 to z = 0 depends on stellar mass, evolving by $$\Delta \rm log(\rm O/H) \sim 0.25$$ dex at M*< $$10^{9.75}\, \mathrm{M}_{\odot }$$ down to $$\Delta \rm log(\rm O/H) \sim 0.05$$ at M* ≳ $$10^{10.5}\, \mathrm{M}_{\odot }$$. In contrast, the O3N2-based MZR shows a constant offset of $$\Delta \rm log(\rm O/H) \sim 0.30$$ across all masses, consistent with previous MOSDEF results based on independent metallicity indicators, and suggesting that O3N2 provides a more robust metallicity calibration for our z ∼ 1.5 sample. We investigated the secondary dependence of the MZR on star formation rate (SFR) by measuring correlated scatter about the mean M*-specific SFR and M*−$$\log (\rm O3N2)$$ relations. We find an anticorrelation between $$\log (\rm O/H)$$ and sSFR offsets, indicating the presence of a M*−SFR−Z relation, though with limited significance. Additionally, we find that our z ∼ 1.5 stacks lie along the z = 0 metallicity sequence at fixed μ = log (M*/M⊙) − 0.6 × $$\log (\rm SFR / M_{\odot } \, yr^{-1})$$ suggesting that the z ∼ 1.5 stacks can be described by the z = 0 fundamental metallicity relation (FMR). However, using different calibrations can shift the calculated metallicities off of the local FMR, indicating that appropriate calibrations are essential for understanding metallicity evolution with redshift. Finally, understanding how [N ii]/H α scales with galaxy properties is crucial to accurately describe the effects of blended [N ii] and H α on redshift and H α fiux measurements in future large surveys utilizing low-resolution spectra such as with Euclid and the Roman Space Telescope. 

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3. The lowest detected stellar Fe abundance: the halo star SMSS J160540.18−144323.1

   https://doi.org/10.1093/mnrasl/slz109  

   Nordlander, T; Bessell, M S; Da Costa, G S; Mackey, A D; Asplund, M; Casey, A R; Chiti, A; Ezzeddine, R; Frebel, A; Lind, K; et al (September 2019, Monthly Notices of the Royal Astronomical Society: Letters)

   ABSTRACT We report the discovery of SMSS J160540.18−144323.1, a new ultra metal-poor halo star discovered with the SkyMapper telescope. We measure $$\left[\rm {Fe}/\rm {H}\right]= -6.2 \pm 0.2$$ (1D LTE), the lowest ever detected abundance of iron in a star. The star is strongly carbon-enhanced, $$\left[\rm {C}/\rm {Fe}\right] = 3.9 \pm 0.2$$, while other abundances are compatible with an α-enhanced solar-like pattern with $$\left[\rm {Ca}/\rm {Fe}\right] = 0.4 \pm 0.2$$, $$\left[\rm {Mg}/\rm {Fe}\right] = 0.6 \pm 0.2$$, $$\left[\rm {Ti}/\rm {Fe}\right] = 0.8 \pm 0.2$$, and no significant s- or r-process enrichment, $$\left[\rm {Sr}/\rm {Fe}\right] \lt 0.2$$ and $$\left[\rm {Ba}/\rm {Fe}\right] \lt 1.0$$ (3σ limits). Population III stars exploding as fallback supernovae may explain both the strong carbon enhancement and the apparent lack of enhancement of odd-Z and neutron-capture element abundances. Grids of supernova models computed for metal-free progenitor stars yield good matches for stars of about $$10\, \rm M_\odot$$ imparting a low kinetic energy on the supernova ejecta, while models for stars more massive than roughly $$20\, \rm M_\odot$$ are incompatible with the observed abundance pattern. 

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4. The MOSDEF-LRIS Survey: The Interplay Between Massive Stars and Ionized Gas in High-Redshift Star-Forming Galaxies1

   https://doi.org/10.1093/mnras/staa1410  

   Topping, Michael W; Shapley, Alice E; Reddy, Naveen A; Sanders, Ryan L; Coil, Alison L; Kriek, Mariska; Mobasher, Bahram; Siana, Brian (July 2020, Monthly Notices of the Royal Astronomical Society)

   null (Ed.)

   Abstract We present a joint analysis of rest-UV and rest-optical spectra obtained using Keck/LRIS and Keck/MOSFIRE for a sample of 62 star-forming galaxies at z ∼ 2.3. We divide our sample into two bins based on their location in the [OIII]5007/Hβ vs. [NII]6584/Hα BPT diagram, and perform the first differential study of the rest-UV properties of massive ionizing stars as a function of rest-optical emission-line ratios. Fitting BPASS stellar population synthesis models, including nebular continuum emission, to our rest-UV composite spectra, we find that high-redshift galaxies offset towards higher [OIII]λ5007/Hβ and [NII]λ6584/Hα have younger ages ($$\log (\textrm {~Age/yr})=7.20^{+0.57}_{-0.20}$$) and lower stellar metallicities ($$Z_*=0.0010^{+0.0011}_{-0.0003}$$) resulting in a harder ionizing spectrum, compared to the galaxies in our sample that lie on the local BPT star-forming sequence ($$\log (\textrm {Age/yr})=8.57^{+0.88}_{-0.84}$$, $$Z_*=0.0019^{+0.0006}_{-0.0006}$$). Additionally, we find that the offset galaxies have an ionization parameter of $$\log (U)=-3.04^{+0.06}_{-0.11}$$ and nebular metallicity of ($$12+\log (\textrm {~O/H})=8.40^{+0.06}_{-0.07}$$), and the non-offset galaxies have an ionization parameter of $$\log (U)=-3.11^{+0.08}_{-0.08}$$ and nebular metallicity of $$12+\log (\textrm {~O/H})=8.30^{+0.05}_{-0.06}$$. The stellar and nebular metallicities derived for our sample imply that the galaxies offset from the local BPT relation are more α-enhanced ($$7.28^{+2.52}_{-2.82}\textrm {~O/Fe}_{\odot }$$) compared to those consistent with the local sequence ($$3.04^{+0.95}_{-0.54}\textrm {~O/Fe}_{\odot }$$). However, even galaxies that are entirely consistent with the local nebular excitation sequence appear to be α-enhanced – in contrast with typical local systems. Such differences must be considered when estimating gas-phase oxygen abundances at high redshift based on strong emission-line ratios. Specifically, a similarity in the location of high-redshift and local galaxies in the BPT diagram may not be indicative of a similarity in their physical properties. 

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5. The Cosmic Ultraviolet Baryon Survey (CUBS) – IV. The complex multiphase circumgalactic medium as revealed by partial Lyman limit systems

   https://doi.org/10.1093/mnras/stab2869  

   Cooper, Thomas J; Rudie, Gwen C; Chen, Hsiao-Wen; Johnson, Sean D; Zahedy, Fakhri S; Chen, Mandy C; Boettcher, Erin; Walth, Gregory L; Cantalupo, Sebastiano; Cooksey, Kathy L; et al (October 2021, Monthly Notices of the Royal Astronomical Society)

   ABSTRACT We present a detailed study of two partial Lyman limit systems (pLLSs) of neutral hydrogen column density $$N_\mathrm{H\, I}\approx (1-3)\times 10^{16}\, \mathrm{cm}^{-2}$$ discovered at $$z$$ = 0.5 in the Cosmic Ultraviolet Baryon Survey (CUBS). Available far-ultraviolet spectra from the Hubble Space Telescope Cosmic Origins Spectrograph and optical echelle spectra from MIKE on the Magellan Telescopes enable a comprehensive ionization analysis of diffuse circumgalactic gas based on resolved kinematics and abundance ratios of atomic species spanning five different ionization stages. These data provide unambiguous evidence of kinematically aligned multiphase gas that masquerades as a single-phase structure and can only be resolved by simultaneous accounting of the full range of observed ionic species. Both systems are resolved into multiple components with inferred α-element abundance varying from [α/H] ≈−0.8 to near solar and densities spanning over two decades from log nH/cm−3 ≈ −2.2 to <−4.3. Available deep galaxy survey data from the CUBS program taken with VLT/MUSE, Magellan/LDSS3-C and Magellan/IMACS reveal that the $$z$$ = 0.47 system is located 55 kpc from a star-forming galaxy with prominent Balmer absorption of stellar mass $${{M_{\rm star}}}\approx 2\times 10^{10}\, {{M_{\odot}}}$$, while the $$z$$ = 0.54 system resides in an overdense environment of 11 galaxies within 750 kpc in projected distance, with the most massive being a luminous red galaxy of $${{M_{\rm star}}}\approx 2\times 10^{11}\, {{M_{\odot}}}$$ at 375 kpc. The study of these two pLLSs adds to an emerging picture of the complex, multiphase circumgalactic gas that varies in chemical abundances and density on small spatial scales in diverse galaxy environments. The inhomogeneous nature of metal enrichment and density revealed in observations must be taken into account in theoretical models of diffuse halo gas. 

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