Overmassive Black Holes in Dwarf Galaxies Out to z ∼ 0.9 in the VIPERS Survey

Mezcua, Mar; Siudek, M.; Suh, Hyewon; Valiante, Taufik A.; Spinoso, Daniele; Bonoli, Silvia

doi:10.3847/2041-8213/acae25

Cited by 25 publications

(24 citation statements)

References 94 publications

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“…Interestingly, Bogdan et al (2023) reported the discovery of a gravitationally lensed quasar at z = 10.3, with an estimated black hole mass comparable to its stellar mass, and Natarajan et al (2023) suggested its origin as a heavy black hole seed. However, the detection of overmassive black holes is not new, as it was already suggested by sporadic observations at z ∼ 6 in the pre-JWST era (see, e.g., Wang et al 2010), and, recently, even more locally (see, e.g., Mezcua et al 2023, up to z = 0.9).…”

Section: Local Scaling Relationmentioning

confidence: 82%

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M _•–M _⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

Pacucci,

Nguyen,

Carniani

et al. 2023

ApJL

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JWST is revolutionizing our understanding of the high-z Universe by expanding the black hole horizon, looking farther and to smaller masses, and revealing the stellar light of their hosts. By examining JWST galaxies at z = 4–7 that host Hα-detected black holes, we investigate (i) the high-z M •–M ⋆ relation and (ii) the black hole mass distribution, especially in its low-mass range (M • ≲ 106.5 M ⊙). With a detailed statistical analysis, our findings conclusively reveal a high-z M •–M ⋆ relation that deviates at >3σ confidence level from the local relation. The high-z relation is log ( M • / M ⊙ ) = − 2.43 − 0.83 + 0.83 + 1.06 − 0.09 + 0.09 log ( M ⋆ / M ⊙ ) . Black holes are overmassive by ∼10–100× compared to their low-z counterparts in galactic hosts of the same stellar mass. This fact is not due to a selection effect in surveys. Moreover, our analysis predicts the possibility of detecting in high-z JWST surveys 5–15× more black holes with M • ≲ 106.5 M ⊙, and 10–30× more with M • ≲ 108.5 M ⊙, compared to local relation’s predictions. The lighter black holes preferentially occupy galaxies with a stellar mass of ∼107.5–108 M ⊙. We have yet to detect these sources because (i) they may be inactive (duty cycles 1%–10%), (ii) the host overshines the active galactic nucleus (AGN), or (iii) the AGN is obscured and not immediately recognizable by line diagnostics. A search of low-mass black holes in existing JWST surveys will further test the M •–M ⋆ relation. Current JWST fields represent a treasure trove of black hole systems at z = 4–7; their detection will provide crucial insights into their early evolution and coevolution with their galactic hosts.

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Section: Local Scaling Relationmentioning

confidence: 82%

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M _•–M _⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

Pacucci,

Nguyen,

Carniani

et al. 2023

ApJL

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“…An example of a similar bias can be seen in Figure 18 of Burke et al (2022), where their M BH values of variability-selected active dwarf galaxies are 2-3 dex above the M BH −M å scaling relation. Similarly, Mezcua et al (2023) also found a sample of distant active dwarf galaxies containing overmassive MBHs. It is The error of M BH is 0.55 dex, i.e., the scatter of the scaling relation in Reines & Volonteri (2015), compared to which the M å uncertainty is negligible.…”

Section: Challenges That May Lead To the λ Edd Tensionmentioning

confidence: 78%

Identification and Characterization of a Large Sample of Distant Active Dwarf Galaxies in XMM-SERVS

Zou,

Brandt,

et al. 2023

ApJ

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Active dwarf galaxies are important because they contribute to the evolution of dwarf galaxies and can reveal their hosted massive black holes. However, the sample size of such sources beyond the local universe is still highly limited. In this work, we search for active dwarf galaxies in the recently completed XMM-Spitzer Extragalactic Representative Volume Survey (XMM-SERVS). XMM-SERVS is currently the largest medium-depth X-ray survey covering 13 deg2 in three extragalactic fields, which all have well-characterized multiwavelength information. After considering several factors that may lead to misidentifications, we identify 73 active dwarf galaxies at z < 1, which constitutes the currently largest X-ray-selected sample beyond the local universe. Our sources are generally less obscured than predictions based on the massive-AGN (active galactic nucleus) X-ray luminosity function and have a low radio-excess fraction. We find that our sources reside in environments similar to those of inactive dwarf galaxies. We further quantify the accretion distribution of the dwarf-galaxy population after considering various selection effects and find that it decreases with X-ray luminosity, but redshift evolution cannot be statistically confirmed. Depending on how we define an AGN, the active fraction may or may not show a strong dependence on stellar mass. Their Eddington ratios and X-ray bolometric corrections significantly deviate from the expected relation, which is likely caused by several large underlying systematic biases when estimating the relevant parameters for dwarf galaxies. Throughout this work, we also highlight problems in reliably measuring photometric redshifts and overcoming strong selection effects for distant active dwarf galaxies.

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“…Indeed, the luminosity threshold of 10 41 erg s −1 imposes a lower black hole mass limit (per Eddington ratio), so HLXs may represent the massive end of the IMBH distribution. We note that the predicted lower black hole mass limits will be larger if the evolution of the overall sample is dominated by a mass scaling relation with a shallower slope at low black hole masses (e.g., Mezcua 2017;Pacucci et al 2018) or if some of the black holes evolved to be over massive when compared to the scaling relations (e.g., Mezcua et al 2023;Pacucci et al 2023).…”

Section: Constraints On the Black Hole Mass Distribution Of Hlxsmentioning

confidence: 88%

Merger-driven Growth of Intermediate-mass Black Holes: Constraints from Hubble Space Telescope Imaging of Hyper-luminous X-Ray Sources

Barrows,

Mezcua,

Comerford

et al. 2024

ApJ

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Hyper-luminous X-ray sources (HLXs) are extragalactic off-nuclear X-ray sources with luminosities exceeding the theoretical limit for accretion onto stellar-mass compact objects. Many HLXs may represent intermediate-mass black holes (IMBHs) deposited in galaxy halos through mergers, and the properties of the stellar cores surrounding HLXs provide powerful constraints on this scenario. Therefore, we have systematically built the largest sample of HLX candidates with archival Hubble Space Telescope (HST) imaging (24) for the first uniform population study of HLX stellar cores down to low masses. Based on their host galaxy redshifts, at least 21 (88%) have stellar core masses ≥ 107 M ⊙ and hence are consistent with accretion onto massive black holes from external galaxies. In 50% of the sample, the HST imaging reveals features connecting the HLXs with their host galaxies, strongly suggesting against the background/foreground contaminant possibility in these cases. Assuming a mass scaling relation for active galactic nuclei and accounting for an estimated contamination fraction of 29%, up to ∼60% of our sample may be associated with IMBHs. Similar to previously known HLXs, the X-ray luminosities are systematically elevated relative to their stellar core masses, possibly from merger-driven accretion rate enhancements. The least massive stellar cores are preferentially found at larger nuclear offsets and are more likely to remain wandering in their host galaxy halos. The HLX galaxy occupation fraction is ∼ 10−2 and has a strong inverse mass dependence. Up to three of the HLX candidates (12%) are potentially consistent with formation within globular clusters or with exceptionally luminous X-ray binaries.

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Overmassive Black Holes in Dwarf Galaxies Out to z ∼ 0.9 in the VIPERS Survey

Cited by 25 publications

References 94 publications

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M _•–M _⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M _•–M _⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

Identification and Characterization of a Large Sample of Distant Active Dwarf Galaxies in XMM-SERVS

Merger-driven Growth of Intermediate-mass Black Holes: Constraints from Hubble Space Telescope Imaging of Hyper-luminous X-Ray Sources

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Overmassive Black Holes in Dwarf Galaxies Out to z ∼ 0.9 in the VIPERS Survey

Cited by 25 publications

References 94 publications

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M •–M ⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M •–M ⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

Identification and Characterization of a Large Sample of Distant Active Dwarf Galaxies in XMM-SERVS

Merger-driven Growth of Intermediate-mass Black Holes: Constraints from Hubble Space Telescope Imaging of Hyper-luminous X-Ray Sources

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JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M _•–M _⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models

JWST CEERS and JADES Active Galaxies at z = 4–7 Violate the Local M _•–M _⋆ Relation at >3σ: Implications for Low-mass Black Holes and Seeding Models