1. SuperBoRG: Exploration of Point Sources at z ∼ 8 in HST Parallel Fields.
- Author
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Morishita, T., Stiavelli, M., Trenti, M., Treu, T., Roberts-Borsani, G. W., Mason, C. A., Hashimoto, T., Bradley, L., Coe, D., and Ishikawa, Y.
- Subjects
SPACE telescopes ,BROWN dwarf stars ,QUASARS ,LUMINOSITY ,EXTRAPOLATION ,REDSHIFT - Abstract
To extend the search for quasars in the epoch of reionization beyond the tip of the luminosity function, we explore point-source candidates at redshift z ∼ 8 in SuperBoRG, a compilation of ∼0.4 deg
2 archival medium-deep (mF160W ∼ 26.5 ABmag, 5σ) parallel infrared (IR) images taken with the Hubble Space Telescope (HST). Initial candidates are selected by using the Lyman-break technique. We then carefully analyze source morphology, and robustly identify three point sources at z ∼ 8. Photometric redshift analysis reveals that they are preferentially fit by extragalactic templates, and we conclude that they are unlikely to be low-z interlopers, including brown dwarfs. A clear IRAC ch2 flux excess is seen in one of the point sources, which is expected if the source has strong Hβ+[O iii ] emission with a rest-frame equivalent width of ∼3000 Å. Deep spectroscopic data taken with Keck/MOSFIRE, however, do not reveal Lyα emission from the object. In combination with the estimated Hβ+[O iii ] equivalent width, we place an upper limit on its Lyα escape fraction of. We estimate the number density of these point sources as ∼1 × 10−6 Mpc−3 mag−1 at MUV ∼ −23 mag. The final interpretation of our results remains inconclusive: extrapolation from low-z studies of faint quasars suggests that ≳100× survey volume may be required to find one of this luminosity. The James Webb Space Telescope will be able to conclusively determine the nature of our luminous point-source candidates, while the Roman Space Telescope will probe ∼200 times the area of the sky with the same observing time considered in this HST study. [ABSTRACT FROM AUTHOR]- Published
- 2020
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