Extremely Red Galaxies at z = 5–9 with MIRI and NIRSpec: Dusty Galaxies or Obscured Active Galactic Nuclei?

Barro, Guillermo; Pérez-González, Pablo G.; Kocevski, Dale D.; McGrath, Elizabeth J.; Trump, Jonathan R.; Simons, Raymond C.; Somerville, Rachel S.; Yung, L. Y. Aaron; Arrabal Haro, Pablo; Akins, Hollis B.; Bagley, Michaela B.; Cleri, Nikko J.; Costantin, Luca; Davis, Kelcey; Dickinson, Mark; Finkelstein, Steve L.; Giavalisco, Mauro; Gómez-Guijarro, Carlos; Hathi, Nimish P.; Hirschmann, Michaela; Holwerda, Benne W.; Huertas-Company, Marc; Kartaltepe, Jeyhan S.; Koekemoer, Anton M.; Lucas, Ray A.; Papovich, Casey; Pirzkal, Nor; Seillé, Lise-Marie; Tacchella, Sandro; Wuyts, Stijn; Wilkins, Stephen M.; de la Vega, Alexander; Yang, Guang; Zavala, Jorge A.

doi:10.3847/1538-4357/ad167e

“…We exclude the two galaxies that Leung et al (2023) found had red colors in the longwavelength bands. As discussed in Leung et al (2023), this may indicate that these sources have an AGN component contributing to their emission, similar to other sources identified at brighter magnitudes and lower redshifts (e.g., Kocevski et al 2023;Labbe et al 2023;Matthee et al 2023;Barro et al 2024).…”

Section: Galaxy Samplesupporting

confidence: 76%

Rest-frame UV Colors for Faint Galaxies at z ∼ 9–16 with the JWST NGDEEP Survey

Morales,

Finkelstein,

Leung

et al. 2024

ApJL

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We present measurements of the rest-frame UV spectral slope, β, for a sample of 36 faint star-forming galaxies at z ∼ 9–16 discovered in one of the deepest JWST NIRCam surveys to date, the Next Generation Deep Extragalactic Exploratory Public Survey. We use robust photometric measurements for UV-faint galaxies (down to M UV ∼ −16), originally published in Leung et al., and measure values of the UV spectral slope via photometric power-law fitting to both the observed photometry and stellar population models obtained through spectral energy distribution (SED) fitting with Bagpipes. We obtain a median and 68% confidence interval for β from photometric power-law fitting of β PL = − 2.7 − 0.5 + 0.5 and from SED fitting, β SED = − 2.3 − 0.1 + 0.2 for the full sample. We show that when only two to three photometric detections are available, SED fitting has a lower scatter and reduced biases than photometric power-law fitting. We quantify this bias and find that after correction the median β SED , corr = − 2.5 − 0.2 + 0.2 . We measure physical properties for our galaxies with Bagpipes and find that our faint ( M UV = − 18.1 − 0.9 + 0.7 ) sample is low in mass ( log [ M * / M ⊙ ] = 7.7 − 0.5 + 0.5 ), fairly dust-poor ( A v = 0.1 − 0.1 + 0.2 mag), and modestly young ( log [ age ] = 7.8 − 0.8 + 0.2 yr) with a median star formation rate of log ( SFR ) = − 0.3 − 0.4 + 0.4 M ⊙ yr − 1 . We find no strong evidence for ultrablue UV spectral slopes (β ∼ −3) within our sample, as would be expected for exotically metal-poor (Z/Z ⊙ < 10−3) stellar populations with very high Lyman continuum escape fractions. Our observations are consistent with model predictions that galaxies of these stellar masses at z ∼ 9–16 should have only modestly low metallicities (Z/Z ⊙ ∼ 0.1–0.2).

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“…The BH masses for those JWST-detected faint AGNs are M • ∼ 10 6−8 M e , which is 1-2 orders of magnitude lower than those of previously known quasars at z > 4. Intriguingly, some of the sources have extremely red colors in the rest-frame optical bands, while the rest-frame UV color seems fairly consistent with those of known Lyman-break galaxies at similar redshifts (e.g., Harikane et al 2023;Kocevski et al 2023;Labbe et al 2023;Barro et al 2024;Greene et al 2024;Matthee et al 2024). The so-called "little red dot" sources are interpreted to be in a transition stage from a dust-obscured starburst to an unobscured luminous quasar due to the expelling of gas and dust (Fujimoto et al 2022).…”

Section: Introductionsupporting

confidence: 59%

“…2. An intriguing subset consists of the dust-reddened AGNs (referred to as "little red dots"), characterized by moderate obscuration in the SED and compact morphology (Harikane et al 2023;Kocevski et al 2023;Labbe et al 2023;Barro et al 2024;Matthee et al 2024). This class of AGNs shows a distinctive spectral shape, which can be attributed to a dust-reddened AGN continuum coupled with excess emission in the rest-frame UV produced either by the unobscured stellar continuum of the host galaxy or scattered light from the buried AGN (e.g., Zakamska et al 2005;Polletta et al 2006;Noboriguchi et al 2023).…”

Section: Populationsmentioning

confidence: 99%

Exploring Low-mass Black Holes through Tidal Disruption Events in the Early Universe: Perspectives in the Era of the JWST, Roman Space Telescope, and LSST Surveys

Inayoshi,

Kashiyama,

Li

et al. 2024

ApJ

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The James Webb Space Telescope (JWST) has recently uncovered the presence of low-luminosity active galactic nuclei (AGNs) at z = 4–11. Spectroscopic observations have provided estimates of the nuclear black hole (BH) masses for these sources, extending the low-mass boundary down to M • ∼ 106–7 M ⊙. Despite this breakthrough, the observed lowest mass of BHs is still ≳1–2 orders of magnitude heavier than the predicted mass range of their seed population, thereby leaving the initial mass distribution of massive BHs poorly constrained. In this paper, we focus on UV-to-optical (in the rest frame) flares of stellar tidal disruption events (TDEs) embedded in low-luminosity AGNs as a tool for exploring low-mass BH populations with ≲104–6 M ⊙. We provide an estimate of the TDE rate over z = 4–11, associated with the properties of JWST-detected AGN host galaxies, and we find that deep and wide survey programs with JWST and the Roman Space Telescope (RST) can detect and identify TDEs up to z ≃ 4–7. The predicted detection numbers of TDEs at z > 4 in 1 yr are N TDE ∼ 2 – 10 ( 0.2 – 2 ) for the JADES-Medium (and COSMOS-Web) survey with JWST and N TDE ∼ 2 – 10 ( 8 – 50 ) for the deep (and wide) tiers of the High Latitude Time Domain Survey with RST. We further discuss survey strategies for hunting for transient high-redshift TDEs in wide-field surveys with RST, as well as a joint observation campaign with the Vera C. Rubin Observatory for enhancing the detection number. The high-redshift TDE search will give us a unique opportunity to probe the mass distribution of early BH populations.

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“…One source, CEERS-EGS-BD-5, has an EAZY galaxy fit with χ 2 = 18.31, but we included this source in our final sample as the EAZY fit is not consistent with the nondetections in the ACS F606W and F814W filters. We rejected those sources with red LW slopes similar to those described in Endsley et al (2023), Furtak et al (2023, Barro et al (2024), Hainline et al (2023), , and Matthee et al (2023), as these have colors inconsistent with brown dwarf models.…”

Section: Selecting Brown Dwarf Candidatesmentioning

confidence: 96%

“…Multiple authors have looked at similar samples of extremely red sources in extragalactic data sets (e.g., Franco et al 2023;Pérez-González et al 2023, Barro et al 2024, among others), and we have outlined color selection criteria here which may be used to find the brown dwarfs among those samples.…”

Section: Comparing To High-redshift Galaxy Colorsmentioning

confidence: 99%

Brown Dwarf Candidates in the JADES and CEERS Extragalactic Surveys

Hainline,

Helton,

Johnson

et al. 2024

ApJ

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By combining the James Webb Space Telescope (JWST)/NIRCam JADES and CEERS extragalactic data sets, we have uncovered a sample of 21 T and Y brown dwarf candidates at best-fit distances between 0.1 and 4.2 kpc. These sources were selected by targeting the blue 1–2.5 μm colors and red 3–4.5 μm colors that arise from molecular absorption in the atmospheres of T eff < 1300 K brown dwarfs. We fit these sources using multiple models of substellar atmospheres and present the resulting fluxes, sizes, effective temperatures, and other derived properties for the sample. If confirmed, these fits place the majority of the sources in the Milky Way thick disk and halo. We observe proper motions for seven of the candidate brown dwarfs, with directions in agreement with the plane of our Galaxy, providing evidence that they are not extragalactic in nature. We demonstrate how the colors of these sources differ from selected high-redshift galaxies, and explore the selection of these sources in planned large-area JWST NIRCam surveys. Deep imaging with JWST/NIRCam presents an an excellent opportunity for finding and understanding these ultracool dwarfs at kiloparsec distances.

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Extremely Red Galaxies at z = 5–9 with MIRI and NIRSpec: Dusty Galaxies or Obscured Active Galactic Nuclei?

Cited by 39 publications

References 126 publications

Rest-frame UV Colors for Faint Galaxies at z ∼ 9–16 with the JWST NGDEEP Survey

Rest-frame UV Colors for Faint Galaxies at z ∼ 9–16 with the JWST NGDEEP Survey

Exploring Low-mass Black Holes through Tidal Disruption Events in the Early Universe: Perspectives in the Era of the JWST, Roman Space Telescope, and LSST Surveys

Brown Dwarf Candidates in the JADES and CEERS Extragalactic Surveys

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