Romain A. Meyer scite author profile

The presence of excess scatter in the Ly-α forest at z ∼ 5.5, together with the existence of sporadic extended opaque Gunn-Peterson troughs, has started to provide robust evidence for a late end of hydrogen reionization. However, low data quality and systematic uncertainties complicate the use of Ly-α transmission as a precision probe of reionization’s end stages. In this paper, we assemble a sample of 67 quasar sightlines at z > 5.5 with high signal-to-noise ratios of >10 per ≤15 km s−1 spectral pixel, relying largely on the new XQR-30 quasar sample. XQR-30 is a large program on VLT/X-Shooter which obtained deep (SNR > 20 per pixel) spectra of 30 quasars at z > 5.7. We carefully account for systematics in continuum reconstruction, instrumentation, and contamination by damped Ly-α systems. We present improved measurements of the mean Ly-α transmission over 4.9 < z < 6.1. Using all known systematics in a forward modelling analysis, we find excellent agreement between the observed Ly-α transmission distributions and the homogeneous-UVB simulations Sherwood and Nyx up to z ≤ 5.2 (<1σ), and mild tension (∼2.5σ) at z = 5.3. Homogeneous UVB models are ruled out by excess Ly-α transmission scatter at z ≥ 5.4 with high confidence (>3.5σ). Our results indicate that reionization-related fluctuations, whether in the UVB, residual neutral hydrogen fraction, and/or IGM temperature, persist in the intergalactic medium until at least z = 5.3 (t = 1.1 Gyr after the big bang). This is further evidence for a late end to reionization.

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Probing cosmic dawn: Ages and star formation histories of candidate z ≥ 9 galaxies

Laporte

Meyer

Ellis

et al. 2021

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We discuss the spectral energy distributions and physical properties of six galaxies whose photometric redshifts suggest they lie beyond a redshift z ≃ 9. Each was selected on account of a prominent excess seen in the Spitzer/IRAC 4.5 $\mu$m band which, for a redshift above z = 9.0, likely indicates the presence of a rest-frame Balmer break and a stellar component that formed earlier than a redshift z ≃ 10. In addition to constraining the earlier star formation activity on the basis of fits using stellar population models with BAGPIPES, we have undertaken the necessary, but challenging, follow-up spectroscopy for each candidate using various combinations of Keck/MOSFIRE, VLT/X-shooter, Gemini/FLAMINGOS2, and ALMA. Based on either Lyman-α or [O iii] 88 $\mu$m emission, we determine a convincing redshift of z = 8.78 for GN-z-10-3 and a likely redshift of z = 9.28 for the lensed galaxy MACS0416-JD. For GN-z9-1, we conclude the case remains promising for a source beyond z ≃ 9. Together with earlier spectroscopic data for MACS1149-JD1, our analysis of this enlarged sample provides further support for a cosmic star formation history extending beyond redshifts z ≃ 10. We use our best-fitting stellar population models to reconstruct the past rest-frame UV luminosities of our sources and discuss the implications for tracing earlier progenitors of such systems with the James Webb Space Telescope.

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Three Lyα Emitting Galaxies within a Quasar Proximity Zone at z ∼ 5.8

Kakiichi

Meyer

Grönke

et al. 2020

ApJ

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Quasar proximity zones at > z 5.5 correspond to overdense and overionized environments. Galaxies found inside proximity zones can therefore display features that would otherwise be masked by absorption in the intergalactic medium. We demonstrate the utility of this quasar-galaxy synergy by reporting the discovery of the first three "proximate Lyα emitters" (LAEs) within the proximity zone of quasar J0836+0054at z=5.795 (Aerith A, B, and C). Aerith A, located behind the quasar with an impact parameter =  D 278 8 pkpc, provides the first detection of an Unified Astronomy Thesaurus concepts: Lyman-break galaxies (979); Lyman alpha forest (980); Spectroscopy (1558); Quasar-galaxy pairs (1316); Quasars (1319); Galaxies (573); Galaxy formation (595); Reionization (1383); Early universe (435)

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New constraints on quasar evolution: broad-line velocity shifts over 1.5 ≲ z ≲ 7.5

Meyer

Bosman

Ellis

2019

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We present the results of a model-independent investigation of the rest-frame UV spectra from a comprehensive sample of 394 quasars in the redshift range 1.5 ≤ z ≤ 7.5. We fit the main Broad Emission Lines (BELs) in the rest-frame range 1280Å ≤ λ ≤ 3000Å (O I, C II, Si IV, C III], C IV and Mg II) with a lightly-supervised spline fitting technique. Redshifts are derived from the peaks of each fitted BEL and used to compute relative velocity shifts. We show that our method gives unbiased velocity shifts and is insensitive to spectral resolution and instrumental parameters. It is found that the average blueshift of the C IV line with respect to several low-ionisation lines in luminosity-matched samples does not significantly evolve over 1.5 z 6. However, the average blueshift increases significantly by a factor ∼ 2.5 at z 6. We propose that this redshift evolution can be explained by C IV winds launched perpendicularly to an accretion disk with increased torus opacity at high-redshift, coupled with a potential orientation-driven selection bias. Our results open new exciting avenues of investigation into young quasars in the reionisation epoch.

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Romain A. Meyer

Hydrogen reionization ends by z = 5.3: Lyman-α optical depth measured by the XQR-30 sample

Probing cosmic dawn: Ages and star formation histories of candidate z ≥ 9 galaxies

Three Lyα Emitting Galaxies within a Quasar Proximity Zone at z ∼ 5.8

New constraints on quasar evolution: broad-line velocity shifts over 1.5 ≲ z ≲ 7.5

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