A high-redshift quasar absorber without C IV. A galactic outflow caught in the act?

Fox, A. J.; Richter, Philipp

doi:10.1051/0004-6361/201527851

Cited by 2 publications

(1 citation statement)

References 95 publications

(127 reference statements)

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“…This could explain the highest C iv component velocity above the escape velocity. Fox & Richter (2016) show one case of outflow with redshifted C iv absorption at z ≈ 2. Du et al (2016), using 96 DEEP2 galaxies at redshifts z ≈ 1, detected C iv absorption around 32 out of 46 galaxies and concluded that C iv and Mg ii velocities are nearly identical.…”

Section: Introductionmentioning

confidence: 96%

MusE GAs FLOw and Wind (MEGAFLOW) VI. A study of C iv and Mg ii absorbing gas surrounding [O ii] emitting galaxies

Schroetter

Bouché

Zabl

et al. 2021

Monthly Notices of the Royal Astronomical Society

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Using the MEGAFLOW survey, which consists of a combination of MUSE and UVES observations of 22 quasar fields selected to contain strong Mg ii absorbers, we measure covering fractions of C iv and Mg ii as a function of impact parameter b using a novel Bayesian logistic regression method on unbinned data, appropriate for small samples. We also analyse how the C iv and Mg ii covering fractions evolve with redshift. In the MUSE data, we found 215 z = 1 − 1.5 [O ii] emitters with fluxes >10−17 erg s−1 cm−2 and within 250 kpc of quasar sight-lines. Over this redshift path z = 1 − 1.5, we have 19 (32) C iv (Mg ii) absorption systems with rest-frame equivalent width (REW) Wr >0.05Å associated with at least one [O ii] emitter. The covering fractions of z ≈ 1.2 C iv (Mg ii) absorbers with mean Wr ≈0.7Å (1.0Å), exceeds 50 per cent within 23$^{+62}_{-16}$ (46$^{+{18}}_{-13}$) kpc. Together with published studies, our results suggest that the covering fraction of C iv (Mg ii) becomes larger (smaller) with time, respectively. For absorption systems that have C iv but not Mg ii, we find in 73 per cent of the cases no [O ii] counterpart. This may indicate that the C iv come from the intergalactic medium (IGM), i.e. beyond 250 kpc, or that it is associated with lower-mass or quiescent galaxies.

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Section: Introductionmentioning

confidence: 96%

MusE GAs FLOw and Wind (MEGAFLOW) VI. A study of C iv and Mg ii absorbing gas surrounding [O ii] emitting galaxies

Schroetter

Bouché

Zabl

et al. 2021

Monthly Notices of the Royal Astronomical Society

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ELEMENT ABUNDANCES IN A GAS-RICH GALAXY AT z = 5: CLUES TO THE EARLY CHEMICAL ENRICHMENT OF GALAXIES^∗

Morrison

Kulkarni

Som

et al. 2016

ApJ

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Element abundances in high-redshift quasar absorbers offer excellent probes of the chemical enrichment of distant galaxies, and can constrain models for population III and early population II stars. Recent observations indicate that the sub-damped Lyman-alpha (sub-DLA) absorbers are more metal-rich than DLA absorbers at redshifts 04.7. However, only 3 DLAs at z>4.5 and none at z>3.5have "dust-free" metallicity measurements of undepleted elements. We report the first quasar sub-DLA metallicity measurement at z>3.5, from detections of undepleted elements in high-resolution data for a sub-DLA at z=5.0. We obtain fairly robust abundances of C, O, Si, and Fe, using lines outside the Lyman-alpha forest. This absorber is metal-poor, with O/H]=-2.00±0.12, which is 4σ below the level expected from extrapolation of the trend for z<3.5 sub-DLAs. The C/O ratio is 1.8 +0.4 −0.3 times lower than in the Sun. More strikingly, Si/O is 3.2 +0.6 −0.5 times lower than in the Sun, while Si/Fe is nearly (1.2 +0.4 −0.3 times) solar. This absorber does not display a clear alpha/Fe enhancement. Dust depletion mayhave removed more Si from the gas phase than is common in the Milky Way interstellar medium, which may be expected if high-redshift supernovae form more silicate-rich dust. C/O and Si/O vary substantially between different velocity components, indicating spatial variations in dust depletion and/or early stellar nucleosynethesis (e.g., population III star initial mass function). The higher velocity gas may trace an outflow enriched by early stars.

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A high-redshift quasar absorber without C IV. A galactic outflow caught in the act?

Cited by 2 publications

References 95 publications

MusE GAs FLOw and Wind (MEGAFLOW) VI. A study of C iv and Mg ii absorbing gas surrounding [O ii] emitting galaxies

MusE GAs FLOw and Wind (MEGAFLOW) VI. A study of C iv and Mg ii absorbing gas surrounding [O ii] emitting galaxies

ELEMENT ABUNDANCES IN A GAS-RICH GALAXY AT z = 5: CLUES TO THE EARLY CHEMICAL ENRICHMENT OF GALAXIES^∗

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A high-redshift quasar absorber without C IV. A galactic outflow caught in the act?

Cited by 2 publications

References 95 publications

MusE GAs FLOw and Wind (MEGAFLOW) VI. A study of C iv and Mg ii absorbing gas surrounding [O ii] emitting galaxies

MusE GAs FLOw and Wind (MEGAFLOW) VI. A study of C iv and Mg ii absorbing gas surrounding [O ii] emitting galaxies

ELEMENT ABUNDANCES IN A GAS-RICH GALAXY AT z = 5: CLUES TO THE EARLY CHEMICAL ENRICHMENT OF GALAXIES∗

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ELEMENT ABUNDANCES IN A GAS-RICH GALAXY AT z = 5: CLUES TO THE EARLY CHEMICAL ENRICHMENT OF GALAXIES^∗