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23 results on '"Trinca, Alessandro"'

1. BlackTHUNDER -- A non-stellar Balmer break in a black hole-dominated little red dot at $z=7.04$

Author

Ji, Xihan, Maiolino, Roberto, Übler, Hannah, Scholtz, Jan, D'Eugenio, Francesco, Sun, Fengwu, Perna, Michele, Turner, Hannah, Arribas, Santiago, Bennett, Jake S., Bunker, Andrew, Carniani, Stefano, Charlot, Stéphane, Cresci, Giovanni, Curti, Mirko, Egami, Eiichi, Fabian, Andy, Inayoshi, Kohei, Isobe, Yuki, Jones, Gareth, Juodžbalis, Ignas, Kumari, Nimisha, Lyu, Jianwei, Mazzolari, Giovanni, Parlanti, Eleonora, Robertson, Brant, Del Pino, Bruno Rodríguez, Schneider, Raffaella, Sijacki, Debora, Tacchella, Sandro, Trinca, Alessandro, Valiante, Rosa, Venturi, Giacomo, Volonteri, Marta, Willott, Chris, Witten, Callum, and Witstok, Joris

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Recent observations from JWST have revealed an abundant population of active galactic nuclei (AGN) and so-called ``Little Red Dots'' (LRDs) at $2\lesssim z \lesssim 11$, many of which are characterized by V-shaped UV-to-optical continua with turnovers around the Balmer limit. The physical nature of these LRDs is unclear, and it remains debated whether the peculiar spectral shape originates from AGN, compact galaxies, or both. We present the analysis of new NIRSpec-IFU data from the BlackTHUNDER JWST Large Programme and archival NIRSpec-MSA data of a lensed LRD at $z=7.04$. The spectra confirm the presence of a smooth Balmer break and a broad H$\beta$ tracing the Broad Line Region (BLR) of an AGN. The small velocity dispersion of the H$\beta$ narrow component indicates a small dynamical mass of the host galaxy of $M_{\rm dyn}<4 \times 10^8~M_{\odot}$, which implies that the stellar population cannot contribute more than 10% to the optical continuum. We show that the Balmer break can be well described by an AGN continuum absorbed by very dense ($n_{\rm H}\sim 10^{10}~{\rm cm^{-3}}$) and nearly dust-free gas along our line-of-sight (possibly gas in the BLR or its surrounding). The same gas is expected to produce H$\beta$ absorption, at a level consistent with a tentative detection ($3\sigma$) in the high-resolution spectrum. Such a non-stellar origin of the Balmer break may apply to other LRDs, and would alleviate the issue of extremely high stellar mass surface densities inferred in the case of a stellar interpretation of the Balmer break. We note that this is a rare case of a black hole that is overmassive relative to both the host galaxy stellar and dynamical masses. We finally report indications of variability and the first attempt of AGN reverberation mapping at such an early epoch., Comment: 34 pages, 24 figures, submitted to MNRAS

Published
2025

2. Episodic super-Eddington accretion as a clue to Overmassive Black Holes in the early Universe

Author

Trinca, Alessandro, Valiante, Rosa, Schneider, Raffaella, Juodžbalis, Ignas, Maiolino, Roberto, Graziani, Luca, Lupi, Alessandro, Natarajan, Priyamvada, Volonteri, Marta, and Zana, Tommaso

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Early JWST observations are providing growing evidence for a ubiquitous population of accreting supermassive black holes (BHs) at high redshift, many of which appear overmassive compared to the empirically-derived local scaling relation between black hole mass and host galaxy stellar mass. In this study, we leverage predictions from the semi-analytical Cosmic Archaeology Tool (CAT) to reconstruct the evolutionary pathways for this overmassive BH population, investigating how they assemble over cosmic time and interact with their host galaxies. We find that the large $M_{\rm BH}-M_{\rm star}$ ratios can be explained if light and heavy BH seeds grow by short, repeated episodes of super-Eddington accretion, triggered by major galaxy mergers. On average, we find that BH-galaxy co-evolution starts in earnest only at $z < 8$, when $\simeq 30\%$ of the final galaxy stellar mass has formed outside the massive black hole host. Our model suggests that super-Eddington bursts of accretion last between $0.5-3$ Myr, resulting in a duty cycle of $1-4 \%$ for the target BH sample. The boost in luminosity of BHs undergoing super-Eddington accretion helps explaining the luminosity function of Active Galactic Nuclei observed by JWST. At the same time, a large population of these overmassive BHs are predicted to be inactive, with Eddington ratio $\lambda_{\rm Edd} < 0.05$, in agreement with recent observations., Comment: 15 pages, 6 figures. Submitted to A&A

Published
2024

3. Size matters: are we witnessing super-Eddington accretion in high-redshift black holes from JWST?

Author

Lupi, Alessandro, Trinca, Alessandro, Volonteri, Marta, Dotti, Massimo, and Mazzucchelli, Chiara

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies
Abstract

Observations by the James Webb Space Telescope of the Universe at $z\gtrsim 4$ have shown that massive black holes (MBHs) appear extremely overmassive compared to the local correlation for active galactic nuclei. In some cases, these objects might even reach half the stellar mass inferred for the galaxy. Understanding how such objects formed and grew to this masses has then become a big challenge for theoretical models, with different ideas ranging from heavy seed to super-Eddington accretion phases. Here, we take a different approach, and try to infer how accurate these MBH mass estimates are and whether we really need to revise our physical models. By considering how the emerging spectrum (both the continuum and the broad lines) of an accreting MBH changes close to and above the Eddington limit, we infer a much larger uncertainty in the MBH mass estimates relative to that of local counterparts, up to an order of magnitude, and a potential preference for lower masses and higher accretion rates, which i) move them closer to the local correlations, and ii) might indicate that we are witnessing for the first time a widespread phase of very rapid accretion., Comment: 8 pages, 5 figures, submitted to A&A

Published
2024
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4. A dormant overmassive black hole in the early Universe

Author

Juodžbalis, Ignas, Maiolino, Roberto, Baker, William M., Tacchella, Sandro, Scholtz, Jan, D’Eugenio, Francesco, Witstok, Joris, Schneider, Raffaella, Trinca, Alessandro, Valiante, Rosa, DeCoursey, Christa, Curti, Mirko, Carniani, Stefano, Chevallard, Jacopo, de Graaff, Anna, Arribas, Santiago, Bennett, Jake S., Bourne, Martin A., Bunker, Andrew J., Charlot, Stéphane, Jiang, Brian, Koudmani, Sophie, Perna, Michele, Robertson, Brant, Sijacki, Debora, Übler, Hannah, Williams, Christina C., and Willott, Chris

Published
2024
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5. Identifying heavy stellar black holes at cosmological distances with next generation gravitational-wave observatories

Author

Fairhurst, Stephen, Mills, Cameron, Colpi, Monica, Schneider, Raffaella, Sesana, Alberto, Trinca, Alessandro, and Valiante, Rosa

Subjects
Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology
Abstract

We investigate the detectability of single-event coalescing black hole binaries with total mass of $100-600 M_{\odot}$ at cosmological distances ($5 \lesssim z \lesssim 20$) with the next generation of terrestrial gravitational wave observatories, specifically Einstein Telescope and Cosmic Explorer. Our ability to observe these binaries is limited by the low-frequency performance of the detectors. Higher-order Multipoles of the gravitational wave signal are observable in these systems, and detection of such multipoles serves to both b the mass range over which black hole binaries are observable and improve the recovery of their individual masses and redshift. For high redshift systems of $\sim 200 M_{\odot}$ we will be able to confidently infer that the redshift is at least $z=12$, and for systems of $\sim 400 M_{\odot}$ we can infer a minimum redshift of at least $z=8$. We discuss the impact that these observations will have in narrowing uncertainties on the existence of the pair-instability mass-gap, and their implications on the formation of the first stellar black holes that could be seeds for the growth of supermassive black holes powering high-$z$ quasars., Comment: 19 pages, 16 figures

Published
2023

6. Are we surprised to find SMBHs with JWST at z > 9?

Author

Schneider, Raffaella, Valiante, Rosa, Trinca, Alessandro, Graziani, Luca, Volonteri, Marta, and Maiolino, Roberto

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

JWST is unveiling for the first time accreting black holes (BHs) with masses of 10^6 - 10^7 Msun at z > 4, with the most distant residing in GNz11 at z = 10.6. Are we really surprised to find them in the nuclei of z = 5 - 11 galaxies? Here we predict the properties of 4 < z < 11 BHs and their host galaxies considering an Eddington-limited (EL) and a super-Eddington (SE) BH accretion scenario, using the Cosmic Archaeology Tool (CAT) semi-analytical model. We calculate the transmitted spectral energy distribution of CAT synthetic candidates, representative of the BH/galaxy properties of GNz11. We also examine the possibility that the z = 8.7 galaxy CEERS-1019 could host an active BH. We find that the luminosity of high-z JWST detected BHs are better reproduced by the SE model, where BHs descend from efficiently growing light and heavy seeds. Conversely, the host galaxy stellar masses are better matched in the EL model, in which all the systems detectable with JWST surveys JADES and CEERS descend from heavy BH seeds. We support the interpretation that the central point source of GNz11 could be powered by a SE (lambda_Edd = 2 - 3) accreting BH with mass 1.5 10^6 Msun, while the emission from CEERS-1019 is dominated by the host galaxy; if it harbours an active BH, we find it to have a mass of M_BH = 10^7 Msun, and to be accreting at sub-Eddington rates (lambda_Edd = 0.5)., Comment: 11 pages, 5 figures, accepted by MNRAS after minor revision and updated with recent observations

Published
2023

7. Exploring the nature of UV-bright $z \gtrsim 10$ galaxies detected by JWST: star formation, black hole accretion, or a non-universal IMF?

Author

Trinca, Alessandro, Schneider, Raffaella, Valiante, Rosa, Graziani, Luca, Ferrotti, Arianna, Omukai, Kazuyuki, and Chon, Sunmyon

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We use the Cosmic Archaeology Tool (CAT) semi-analytical model to explore the contribution of Population (Pop) III/II stars and active galactic nuclei (AGNs) to the galaxy UV luminosity function (LF) evolution at $4 \leq z \leq 20$. We compare in particular with recent JWST data in order to explore the apparent tension between observations and theoretical models in the number density of bright galaxies at $z \gtrsim 10$. The model predicts a star formation history dominated by UV faint ($M_{\rm UV} > - 18$) galaxies, with a Pop III contribution of $\lesssim 10\%$ ($\lesssim 0.5\%$) at $z \simeq 20$ ($z \simeq 10$). Stars are the primary sources of cosmic reionization, with $5 - 10 \%$ of ionizing photons escaping into the intergalatic medium at $5 \leq z \leq 10$, while the contribution of unobscured AGNs becomes dominant only at $z \lesssim 5$. The predicted stellar and AGN UV LFs reproduce the observational data at $5 \lesssim z \lesssim 9 - 10$. At higher redshift, CAT predicts a steeper evolution in the faint-end slope ($M_{\rm UV} > - 18$), and a number density of bright galaxies ($M_{\rm UV} \simeq -20$) consistent with data at $z \sim 10 - 11$, but smaller by 0.8 dex at $z \sim 12 - 13$, and 1.2 dex at $z \sim 14 - 16$, when compared to the values estimated by recent studies. Including the AGN emission does not affect the above findings, as AGNs contribute at most to $\lesssim 10 \%$ of the total UV luminosity at $M_{\rm UV} < - 19$ and $z \gtrsim 10$. Interestingly, considering a gradual transition in the stellar IMF, modulated by metallicity and redshift as suggested by recent simulations, the model agrees with JWST data at $z \sim 12 - 13$, and the disagreement at $z \sim 14 - 16$ is reduced to 0.5 dex., Comment: 20 pages, 12 figures. Submitted to MNRAS

Published
2023

8. Direct-collapse black hole formation induced by internal radiation of host halos

Author

Chiaki, Gen, Chon, Sunmyon, Omukai, Kazuyuki, Trinca, Alessandro, Schneider, Raffaella, and Valiante, Rosa

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We estimate the fraction of halos that host supermassive black holes (SMBHs) forming through the direct collapse (DC) scenario by using cosmological N -body simulations combined with a semi-analytic model for galaxy evolution. While in most of earlier studies the occurrence of the DC is limited only in chemically pristine halos, we here suppose that the DC can occur also in halos with metallicity below a threshold value $Z_{\rm th} = 0$--$10^{-3}~{\rm Z}_{\bigodot}$, considering the super-competitive accretion pathway for DC black hole (DCBH) formation. In addition, we consider for the first time the effect of Lyman-Werner (LW) radiation from stars within host halos, i.e., internal radiation. We find that, with low threshold metallicities of $Z_{\rm th} \leq 10^{-4}~{\rm Z}_{\bigodot}$, the inclusion of internal radiation rather reduces the number density of DCBHs from $0.2$--$0.3$ to $0.03$--$0.06~{\rm Mpc}^{-3}$. This is because star formation is suppressed due to self-regulation, and the LW flux emitted by neighboring halos is reduced. Only when $Z_{\rm th}$ is as high as $10^{-3}~{\rm Z}_{\bigodot}$, internal radiation enhances the number density of DCBHs from $0.4$ to $1~{\rm Mpc}^{-3}$, thereby decreasing the threshold halo mass above which at least one DCBH forms from $2\times 10^{9}$ to $9\times 10^{8}~{\rm M}_{\bigodot}$. We also find that halos with $M_{\rm halo} \gtrsim 10^{11}$--$10^{12}~{\rm M}_{\bigodot}$ can host more than one DCBH at $z = 0$. This indicates that the DC scenario alone can explain the observed number of SMBH-hosting galaxies., Comment: 17 pages, 12 figures, 2 tables, accepted by MNRAS

Published
2023
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9. Seeking the growth of the first black hole seeds with JWST

Author

Trinca, Alessandro, Schneider, Raffaella, Maiolino, Roberto, Valiante, Rosa, Graziani, Luca, and Volonteri, Marta

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

In this paper we provide predictions for the BH population that would be observable with planned JWST surveys at $5 \le z \le 15$. We base our study on the recently developed Cosmic Archaeology Tool (CAT), which allows us to model BH seeds formation and growth, while being consistent with the general population of AGNs and galaxies observed at $4 \le z \le 7$. We find that JWST planned surveys will provide a complementary view on active BHs at $z > 5$, with JADES-Medium/-Deep being capable of detecting the numerous BHs that populate the faint-end of the distribution, COSMOS-Web sampling a large enough area to detect the rarest brightest systems, and CEERS/PRIMER bridging the gap between these two regimes. The relatively small field of view of the above surveys preferentially selects BHs with masses $6 \leq {\rm Log} (M_{\rm BH}/M_\odot) < 8$ at $7 \le z < 10$, residing in relatively metal poor (${\rm Log} (Z/Z_\odot) \ge -2$) and massive ($8\leq {\rm Log} (M_*/M_\odot) < 10$) galaxies. At $z \ge 10$, only JADES-Deep will have the sensitivity to detect growing BHs with masses $4 \leq {\rm Log} (M_{\rm BH}/M_\odot) < 6$, hosted by more metal poor ($-3 \leq {\rm Log} (Z/Z_\odot) < -2$) and less massive ($6 \leq {\rm Log} (M_*/M_\odot) < 8$) galaxies. In our model, the latter population corresponds to heavy BH seeds formed by the direct collapse of super-massive stars in their earliest phases of mass growth. Detecting these systems would provide invaluable insights on the nature and early growth of the first BH seeds., Comment: 13 pages, 7 figures, 2 tables. Accepted for publication in MNRAS. Updated to match the published version, additional material on the properties of BH seeds host galaxies

Published
2022
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10. The role of Pop III stars and early black holes in the 21cm signal from Cosmic Dawn

Author

Ventura, Emanuele M., Trinca, Alessandro, Schneider, Raffaella, Graziani, Luca, Valiante, Rosa, and Wyithe, J. Stuart B.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

Modeling the 21cm global signal from the Cosmic Dawn is challenging due to the many poorly constrained physical processes that come into play. We address this problem using the semi-analytical code "Cosmic Archaeology Tool" (CAT). CAT follows the evolution of dark matter halos tracking their merger history and provides an ab initio description of their baryonic evolution, starting from the formation of the first (Pop III) stars and black holes (BHs) in mini-halos at z > 20. The model is anchored to observations of galaxies and AGN at z < 6 and predicts a reionization history consistent with constraints. In this work we compute the evolution of the mean global 21cm signal between $4\leq z \leq 40$ based on the rate of formation and emission properties of stars and accreting black holes. We obtain an absorption profile with a maximum depth $\delta {\rm T_b} = -95$ mK at $z \sim 26.5$ (54 MHz). This feature is quickly suppressed turning into an emission signal at $z = 20$ due to the contribution of accreting BHs that efficiently heat the IGM at $z < 27$. The high-$z$ absorption feature is caused by the early coupling between the spin and kinetic temperature of the IGM induced by Pop III star formation episodes in mini-halos. Once we account for an additional radio background from early BHs, we are able to reproduce the timing and the depth of the EDGES signal only if we consider a smaller X-ray background from accreting BHs, but not the shape., Comment: 16 pages, 10 figures, Accepted for publication in MNRAS

Published
2022
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11. The low-end of the black hole mass function at cosmic dawn

Author

Trinca, Alessandro, Schneider, Raffaella, Valiante, Rosa, Graziani, Luca, Zappacosta, Luca, and Shankar, Francesco

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Understanding the formation and growth of supermassive black holes (SMBHs) at high redshift represents a major challenge for theoretical models. In this work we investigate the early evolution of the first SMBHs by constraining their distribution in mass and luminosity at $z > 4$. In particular, we focus on the poorly explored low-mass end of the nuclear black hole (BH) distribution down to $z \simeq 4$, and explore its connection with the nature of the first BH seeds and the processes governing their mass growth. To this aim, we have developed CAT (Cosmic Archaeology Tool), a new semi-analytic model that describes the formation of the first stars and black holes in a self-consistent way and follows the co-evolution of nuclear BHs and their host galaxies for a representative population at $z > 4$. We find that current observational constraints favour models where the growth of BH seeds is Eddington limited and occurs at the Bondi-Hoyle-Lyttleton rate or where super-Eddington accretion occurs via a slim disk during gas rich galaxy mergers. The main difference between these two model variants lies at the low-end of the predicted mass and luminosity functions at $4 \le z \le 6$, where a clear gap appears in the first model, reflecting the stunted growth of light BH seeds formed as remnants of the first stars. Detecting this signature will be extremely challenging even for the future generation of space observatories, such as JWST, Athena and Lynx., Comment: 26 pages, 13 figures, 1 table. Accepted for publication in MNRAS

Published
2022
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13. Identifying heavy stellar black holes at cosmological distances with next-generation gravitational-wave observatories

Author

Fairhurst, Stephen, Mills, Cameron, Colpi, Monica, Schneider, Raffaella, Sesana, Alberto, Trinca, Alessandro, Valiante, Rosa, Fairhurst, Stephen, Mills, Cameron, Colpi, Monica, Schneider, Raffaella, Sesana, Alberto, Trinca, Alessandro, and Valiante, Rosa

Abstract

We investigate the detectability of single-event coalescing black hole binaries with total mass of 100–600 M at cosmological distances (5 z 20) with the next generation of terrestrial gravitational wave observatories, specifically Einstein Telescope and Cosmic Explorer. Our ability to observe these binaries is limited by the low-frequency performance of the detectors. Higher order multipoles of the gravitational wave signal are observable in these systems, and detection of such multipoles serves to both extend the mass range over which black hole binaries are observable and improve the recovery of their individual masses and redshift. For high-redshift systems of ∼ 200 M we will be able to confidently infer that the redshift is at least z = 12, and for systems of ∼ 400 M we can infer a minimum redshift of at least z = 8. We discuss the impact that these observations will have in narrowing uncertainties on the existence of the pair-instability mass gap, and their implications on the formation of the first stellar black holes that could be seeds for the growth of supermassive black holes powering high-z quasars.

Published
2024

15. Are we surprised to find SMBHs with JWST at z ≥ 9?

Author

Schneider, Raffaella, Valiante, Rosa, Trinca, Alessandro, Graziani, Luca, Volonteri, Marta, and Maiolino, Roberto

Subjects
SPECTRAL energy distribution, STELLAR mass, BLACK holes, SUPERMASSIVE black holes, GALACTIC redshift
Abstract

JWST is unveiling for the first time accreting black holes (BHs) with masses of 106 − 107  M at z > 4, with the most distant residing in GNz11 at z  = 10.6. Are we really surprised to find them in the nuclei of z ≃ 5 − 11 galaxies? Here we predict the properties of 4 < z < 11 BHs and their host galaxies considering an Eddington-limited (EL) and a super-Eddington (SE) BH accretion scenario, using the Cosmic Archaeology Tool (CAT) semi-analytical model. We calculate the transmitted spectral energy distribution of CAT synthetic candidates, representative of the BH/galaxy properties of GNz11. We also examine the possibility that the z  = 8.7 galaxy CEERS-1019 could host an active BH. We find that the luminosity of high- z JWST detected BHs are better reproduced by the SE model, where BHs descend from efficiently growing light and heavy seeds. Conversely, the host galaxy stellar masses are better matched in the EL model, in which all the systems detectable with JWST surveys JADES and CEERS descend from heavy BH seeds. We support the interpretation that the central point source of GNz11 could be powered by a SE (λEdd ≃ 2 − 3) accreting BH with mass 1.5 × 106  M , while the emission from CEERS-1019 is dominated by the host galaxy; if it harbours an active BH, we find it to have a mass of M BH ≃ 107  M , and to be accreting at sub-Eddington rates (λEdd ≃ 0.5). [ABSTRACT FROM AUTHOR]

Published
2023
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19. Seeking the growth of the first black hole seeds with JWST.

Author

Trinca, Alessandro, Schneider, Raffaella, Maiolino, Roberto, Valiante, Rosa, Graziani, Luca, and Volonteri, Marta

Subjects
BLACK holes, GRAVITATIONAL collapse, SUPERMASSIVE black holes, SEEDS, EARLY stars
Abstract

In this paper, we provide predictions for the black hole (BH) population that would be observable with planned JWST surveys at 5 ≤ z ≤ 15. We base our study on the recently developed Cosmic Archaeology Tool, which allows us to model BH seeds formation and growth while being consistent with the general population of active galactic nuclei (AGNs) and galaxies observed at 4 ≤ z ≤ 7. We find that JWST planned surveys will provide a complementary view on active BHs at z > 5, with JADES-Medium/-Deep being capable of detecting the numerous BHs that populate the faint-end of the distribution, COSMOS-Web sampling a large enough area to detect the rarest brightest systems, and CEERS/PRIMER bridging the gap between these two regimes. The relatively small field of view of the above surveys preferentially selects BHs with masses 6 ≤ Log(M BH/M) < 8 at 7 ≤ z < 10, residing in relatively metal poor (Log(Z/Z) ≥ −2) and massive (8 ≤ Log(M */M) < 10) galaxies. At z ≥ 10, only JADES-Deep will have the sensitivity to detect growing BHs with masses 4 ≤ Log(M BH/M) < 6, hosted by more metal poor (−3 ≤ Log(Z/Z) < −2) and less massive (6 ≤ Log(M */M) < 8) galaxies. In our model, the latter population corresponds to heavy BH seeds formed by the direct collapse of supermassive stars in their earliest phases of mass growth. Detecting these systems would provide invaluable insights on the nature and early growth of the first BH seeds. [ABSTRACT FROM AUTHOR]

Published
2023
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21. low-end of the black hole mass function at cosmic dawn.

Author

Trinca, Alessandro, Schneider, Raffaella, Valiante, Rosa, Graziani, Luca, Zappacosta, Luca, and Shankar, Francesco

Subjects
BLACK holes, SUPERMASSIVE black holes, EDDINGTON mass limit, GALAXY mergers, STUNTED growth, GALAXY formation, STELLAR luminosity function
Abstract

Understanding the formation and growth of supermassive black holes (SMBHs) at high redshift represents a major challenge for theoretical models. In this work, we investigate the early evolution of the first SMBHs by constraining their distribution in mass and luminosity at z > 4. In particular, we focus on the poorly explored low-mass end of the nuclear black hole (BH) distribution down to z ≃ 4, and explore its connection with the nature of the first BH seeds and the processes governing their mass growth. To this aim, we have developed CAT (Cosmic Archaeology Tool), a new semi-analytic model that describes the formation of the first stars and BHs in a self-consistent way and follows the co-evolution of nuclear BHs and their host galaxies for a representative population at z > 4. We find that current observational constraints favour models where the growth of BH seeds is Eddington limited and occurs at the Bondi–Hoyle–Lyttleton rate or where super-Eddington accretion occurs via a slim disc during gas-rich galaxy mergers. The main difference between these two model variants lies at the low end of the predicted mass and luminosity functions at 4 ≤ z ≤ 6, where a clear gap appears in the first model, reflecting the stunted growth of light BH seeds formed as remnants of the first stars. Detecting this signature will be extremely challenging even for the future generation of space observatories, such as JWST ,  Athena , and Lynx. [ABSTRACT FROM AUTHOR]

Published
2022
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