The miniJPAS and J-NEP surveys: Identification and characterization of the Lyα emitter population and the Lyα luminosity function at redshift 2.05 &lt; z &lt; 3.75

Torralba-Torregrosa, A.; Gurung-López, S.; Arnalte-Mur, P.; Spinoso, D.; Izquierdo-Villalba, D.; Fernández-Soto, A.; Angulo, R.; Bonoli, S.; González Delgado, R. M.; Márquez, I.; Martínez, V. J.; Rahna, P. T.; Vílchez, J. M.; Abramo, R.; Alcaniz, J.; Benitez, N.; Carneiro, S.; Cenarro, J.; Cristóbal-Hornillos, D.; Dupke, R.; Ederoclite, A.; Hernán-Caballero, A.; López-Sanjuan, C.; Marín-Franch, A.; Mendes de Oliveira, C.; Moles, M.; Sodré, L.; Taylor, K.; Varela, J.; Vázquez Ramió, H.

doi:10.1051/0004-6361/202347463

A&A

2023

DOI: 10.1051/0004-6361/202347463

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The miniJPAS and J-NEP surveys: Identification and characterization of the Lyα emitter population and the Lyα luminosity function at redshift 2.05 < z < 3.75

A. Torralba-Torregrosa,

S. Gurung-López,

P. Arnalte-Mur

et al.

Abstract: We present the Lyman-α (Lyα) luminosity function (LF) at 2.05 < z < 3.75, estimated from a sample of 67 Lyα-emitter (LAE) candidates in the Javalambre Physics of the Accelerating Universe Astronomical Survey (J-PAS) pathfinder surveys: miniJPAS and J-NEP. These two surveys cover a total effective area of ∼1.14 deg2 with 54 narrow band (NB) filters (FWHM ∼ 145 Å) across the optical range, with typical limiting magnitudes of ∼23. This set of NBs allowed us to probe Lyα emission in a wide and continuous ran… Show more

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2024

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Cited by 2 publications

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The PAU Survey: The quasar Lyα and UV luminosity functions at 2.7 < z < 5.3

Torralba-Torregrosa,

Renard,

Spinoso

et al. 2024

A&A

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We present the Lyman-alpha ( and ultraviolet (UV) luminosity function (LF) in bins of redshift for quasars selected in the Physics of the Accelerating Universe Survey (PAUS). A sample of 915 objects was selected at $2.7<z<5.3$ within an effective area of $ 36$ deg$^2$ observed in 40 narrow-band (NB) filters (FWHM $ We cover the intermediate--bright luminosity regime of the LF erg\,s $; $-29<M_ UV <-24$). The continuous wavelength coverage of the PAUS NB set allows very efficient target identification and precise redshift measurements. We show that our method is able to retrieve a relatively complete ($C 85<!PCT!>$) and pure ($P 90<!PCT!>$) sample of quasars for $ $. In order to obtain corrections for the LF estimation, and assess the accuracy of our selection method, we produced mock catalogs of $0<z<4.3$ quasars and galaxies that mimic our target population and their main contaminants. Our results show a clear evolution of the and UV LFs, with a declining tendency in the number density of quasars toward increasing redshifts. In addition, the faint-end power-law slope of the LF becomes steeper with redshift, suggesting that the number density of quasars declines faster than that of fainter emitters. By integrating the LF, we find that the total emitted by bright quasars per unit volume rapidly declines with increasing redshift, being subdominant to that of star-forming galaxies by several orders of magnitude by $z 4$. Finally, we stack the NB pseudo-spectra of a visually selected ``golden sample'' of 591 quasars to obtain photometric composite SEDs in bins of redshift, enabling us to measure the mean intergalactic medium absorption using the Lyman-alpha forest as a function of redshift, yielding results consistent with previous spectroscopic determinations.

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The PAU Survey: The quasar Lyα and UV luminosity functions at 2.7 < z < 5.3

Torralba-Torregrosa,

Renard,

Spinoso

et al. 2024

A&A

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Probing the cosmic web in Lyα emission over large scales: an intensity mapping forecast for DECaLS/BASS and DESI

Renard,

Spinoso,

Montero-Camacho

et al. 2024

Monthly Notices of the Royal Astronomical Society

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Being the most prominent HI line, Lyα permeates the cosmic web in emission. Despite its potential as a cosmological probe, its detection on large scales remains elusive. We present a new methodology to perform Lyα intensity mapping with broad-band optical images, by cross-correlating them with Lyα forest data using a custom one-parameter estimator. We also develop an analytical large-scale Lyα emission model with two parameters (average luminosity 〈LLyα〉 and bias be) that respects observational constraints from QSO luminosity functions. We compute a forecast for DECaLS/BASS g-band images cross-correlated with DESI Lyα forest data, setting guidelines for reducing images into Lyα intensity maps. Given the transversal scales of our cross-correlation (26.4 arcmin, ∼33 cMpc/h), our study effectively integrates Lyα emission over all the cosmic volume inside the DESI footprint at 2.2 < z < 3.4 (the g-band Lyα redshift range). Over the parameter space (〈LLyα〉, be) sampled by our forecast, we find a 3σ of large-scale structure in Lyα likely, with a probability of detection of 23.95% for DESI-DECaLS/BASS, and 54.93% for a hypothetical DESI phase II with twice as much Lyα QSOs. Without a detection, we derive upper bounds on 〈LLyα〉 competitive with optimistic literature estimates (2.3 ± 1 · 1041 erg/s/cMpc3 for DESI, and ∼35% lower for its hypothetical phase II). Extrapolation to the DESI-Rubin overlap shows that a detection of large-scale structure with Lyα intensity mapping using next-generation imaging surveys is certain. Such detection would allow constraining 〈LLyα〉, and explore the constraining power of Lyα intensity mapping as a cosmological probe.

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The miniJPAS and J-NEP surveys: Identification and characterization of the Lyα emitter population and the Lyα luminosity function at redshift 2.05 < z < 3.75

Cited by 2 publications

References 116 publications

The PAU Survey: The quasar Lyα and UV luminosity functions at 2.7 < z < 5.3

The PAU Survey: The quasar Lyα and UV luminosity functions at 2.7 < z < 5.3

Probing the cosmic web in Lyα emission over large scales: an intensity mapping forecast for DECaLS/BASS and DESI

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