Luminous Mid-IR Selected Type-2 Quasars at Cosmic Noon in SDSS Stripe82 I: Selection, Composite Photometry, and Spectral Energy Distributions

Abstract

We analyze 23 spectroscopically confirmed Type-2 quasars (QSOs) selected from the WISE 22 μm band in the SDSS Stripe 82 region, focusing on their multi-band photometry and spectral energy distributions (SEDs). These objects were selected to be IR-luminous ( fluxW4 > 5mJy, i.e., 12.62 < W4 < 14.62 \ AB \, magnitude), optically faint (r > 23) or with red color (r - W4 >8.38). Gemini/GNIRS observations were conducted for all 24 candidates, and 18/24 were also observed with Keck/LRIS. The observations confirm 23 to be real Type-2 QSOs in the redshift range 0.88 - 2.99 (12 are at z>2). We collect multi-band photometry and conduct SED fitting. The composite photometry probes the wavelength from 0.1 μm to 10 μm at the rest frame. The IR emission is dominated by dust torus implying an average torus luminosity for the sample of L torus 1046.84 erg/s. The origin of the rest-UV/optical light is not definitive, but we present three possible scenarios: scattered light, stellar emission, and the reddened accretion disk. Assuming an obscured:unobscured ratio of approximately 1:1, our targets have L bol = 1046.28 erg \,s-1 - 1047.49 erg \,s-1 and around SMBH masses 108.18 M - 109.39 M, assuming they accreate at the Eddington limit. Compared to previous Type-2 AGN SEDs, our targets have a brighter dust torus and redder optical-IR color. By comparing the SED to the results from JWST `little red dots' (LRDs), we find that these IR-selected Type-2 QSOs have similar SED shapes to the LRDs. This pilot Type-2 QSO survey demonstrates that mid-IR selection is an efficient way to find luminous Type-2 QSOs at z>2. Finally, the composite photometry and Type-2 QSOs SED model generated by this sample provide a guide for finding more Type-2 QSOs at higher redshift.