Abstract
Abstract Faint z ∼ 5 quasars with M 1450 ∼ −23 mag are known to be potentially important contributors to the ultraviolet ionizing background in the postreionization era. However, their number density has not been well determined, making it difficult to assess their role in the early ionization of the intergalactic medium (IGM). In this work, we present the updated results of our z ∼ 5 quasar survey using the Infrared Medium-deep Survey (IMS), a near-infrared imaging survey covering an area of 85 deg2. From our spectroscopic observations with the Gemini Multi-Object Spectrograph on the Gemini-South 8 m telescope, we discovered eight new quasars at z ∼ 5 with −26.1 ≤ M 1450 ≤ −23.3. Combining our IMS faint quasars (M 1450 > −27 mag) with the brighter Sloan Digital Sky Survey quasars (M 1450 < −27 mag), we derive the z ∼ 5 quasar luminosity function (QLF) without any fixed parameters down to the magnitude limit of M 1450 = −23 mag. We find that the faint-end slope of the QLF is very flat ( ), with a characteristic luminosity of mag. The number density of z ∼ 5 quasars from the QLF gives an ionizing emissivity at 912 Å of ϵ 912 = (3.7–7.1) × 1023 erg s−1 Hz−1 Mpc−3 and an ionizing photon density of Mpc−3 s−1. These results imply that quasars are responsible for only 10%–20% (up to 50% even in the extreme case) of the photons required to completely ionize the IGM at z ∼ 5, disfavoring the idea that quasars alone could have ionized the IGM at z ∼ 5.
Highlights
Quasars are known as key objects for understanding the universe along cosmic time, especially at high redshifts (z 5) where galaxies are hard to detect
We present the updated results of our z ∼ 5 quasar survey using the Infrared Medium-deep Survey (IMS), a near-infrared imaging survey covering an area of 85 deg2
For a plausible clumping factor of C = 3, our result suggests that z ∼ 5 quasars radiate about 21+−95% of the UV ionizing photons required to balance the ionized state of hydrogen at that time
Summary
Quasars are known as key objects for understanding the universe along cosmic time, especially at high redshifts (z 5) where galaxies are hard to detect. The results of optical/NIR wide-area surveys suggest that high-redshift quasars are not the main provider of UV photons, contributing < 50% of the required photons at z ∼ 5 (Yang et al 2016; McGreer et al 2018; Shin et al 2020) and < 10% at z ∼ 6 (Willott et al 2010; Kashikawa et al 2015; Kim et al 2015; Matsuoka et al 2018b). We summarize the IMS z ∼ 5 quasar survey, described in detail in K19, with the newly discovered quasars at z ∼ 5
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