The Relation between Globular Cluster Systems and Supermassive Black Holes in Spiral Galaxies. III. The Link to the M
               <sub>•</sub>–M
               <sub>*</sub> Correlation

González-Lópezlira, Rosa A.; Lomelí-Núñez, Luis; Órdenes-Briceño, Yasna; Loinard, Laurent; Gwyn, Stephen; Álamo-Martínez, Karla; Bruzual, G.; Lançon, A.; Puzia, Thomas H.

doi:10.3847/1538-4357/ac982e

Cited by 6 publications

(1 citation statement)

References 103 publications

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“…In contrast, the dust-poor S0 galaxies may have a more simple GCS. Building on Pota et al (2013) and González-Lópezlira et al (2022), a programme to measure the colour histograms of the GCSs of galaxies with directly measured black masses may be insightful, or even comparing the histograms in just the dust-poor versus dust-rich S0 galaxies could be telling.…”

Section: Future Workmentioning

confidence: 99%

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M,spheroid andMbh–M,galaxy diagrams

Graham

2023

Monthly Notices of the Royal Astronomical Society

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This work advances the (galaxy morphology)-dependent (black hole mass, Mbh)-(spheroid/galaxy stellar mass, M*) scaling relations by introducing ‘dust bins’ for lenticular (S0) galaxies. Doing so has led to the discovery of Mbh-M*, sph and Mbh-M*, gal relations for dusty S0 galaxies—built by major wet mergers and comprising half the S0 sample—offset from the distribution of dust-poor S0 galaxies. The situation is reminiscent of how major dry mergers of massive S0 galaxies have created an offset population of ellicular and elliptical galaxies. For a given Mbh, the dust-rich S0 galaxies have 3–4 times higher M*, sph than the dust-poor S0 galaxies, and the steep distributions of both populations in the Mbh-M*, sph diagram bracket the $M_{\rm bh} \propto M_{\rm *,sph}^{2.27+/-0.48}$ relation defined by the spiral galaxies, themselves renovated through minor mergers. The new relations offer refined means to estimate Mbh in other galaxies and should aid with: (i) constructing (galaxy morphology)-dependent black hole mass functions; (ii) estimating the masses of black holes associated with tidal disruption events; (iii) better quantifying evolution in the scaling relations via improved comparisons with high-z data by alleviating the pickle of apples versus oranges; (iv) mergers and long-wavelength gravitational wave science; (v) simulations of galaxy/black hole coevolution and semi-analytic works involving galaxy speciation; plus (vi) facilitating improved extrapolations into the intermediate-mass black hole landscape. The role of the galaxy’s environment is also discussed, and many potential projects that can further explore the morphological divisions are mentioned.

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Section: Future Workmentioning

confidence: 99%

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M,spheroid andMbh–M,galaxy diagrams

Graham

2023

Monthly Notices of the Royal Astronomical Society

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Scaling relations for globular cluster systems in early-type galaxies – III. The inner flattening of the radial distributions

Caso,

Ennis,

De Bórtoli

2023

Monthly Notices of the Royal Astronomical Society

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The current properties of globular cluster systems (GCSs) in the nearby Universe are a consequence of an evolutionary history ruled by accretion and disruption processes. The analysis of scaling relations for GCSs is crucial for understanding the relevance of different physical processes involved in their origin and subsequent survival. In this work, radial profiles are calculated for a sample of GCSs associated with nearby massive galaxies. This is supplemented with results from our previous papers, achieving a total sample of 53 GCSs with radial profiles homogeneously calculated, and spanning more than two orders of magnitude in stellar mass of the host galaxy. Scaling relations involving different parameters of the GCSs are obtained for the entire sample, and their significance in terms of different scenarios is considered. Finally, the results are analysed in the literature context.

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Probing supermassive black hole growth and its dependence on stellar mass and star formation rate in low-redshift galaxies

Torbaniuk,

Paolillo,

D’Abrusco

et al. 2023

Monthly Notices of the Royal Astronomical Society

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We present an improved study of the relation between supermassive black hole growth and their host galaxy properties in the local Universe (z < 0.33). To this end, we build an extensive sample combining spectroscopic measurements of star-formation rate (SFR) and stellar mass from Sloan Digital Sky Survey, with specific Black Hole accretion rate (sBHAR, $\lambda _{\mathrm{sBHAR}} \propto L_{\rm X}/\mathcal {M}_{\ast }$) derived from the XMM-Newton Serendipitous Source Catalogue (3XMM-DR8) and the Chandra Source Catalogue (CSC 2.0). We find that the sBHAR probability distribution for both star-forming and quiescent galaxies has a power-law shape peaking at log λsBHAR ∼ −3.5 and declining toward lower sBHAR in all stellar mass ranges. This finding confirms the decrease of AGN activity in the local Universe compared to higher redshifts. We observe a significant correlation between log λsBHAR and log SFR in almost all stellar mass ranges, but the relation is shallower compared to higher redshifts, indicating a reduced availability of accreting material in the local Universe. At the same time, the BHAR-to-SFR ratio for star-forming galaxies strongly correlates with stellar mass, supporting the scenario where both AGN activity and stellar formation primarily depend on the stellar mass via fuelling by a common gas reservoir. Conversely, this ratio remains constant for quiescent galaxies, possibly indicating the existence of the different physical mechanisms responsible for AGN fuelling or different accretion mode in quiescent galaxies.

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The Relation between Globular Cluster Systems and Supermassive Black Holes in Spiral Galaxies. III. The Link to the M _•–M _* Correlation

Cited by 6 publications

References 103 publications

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M,spheroid andMbh–M,galaxy diagrams

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M,spheroid andMbh–M,galaxy diagrams

Scaling relations for globular cluster systems in early-type galaxies – III. The inner flattening of the radial distributions

Probing supermassive black hole growth and its dependence on stellar mass and star formation rate in low-redshift galaxies

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The Relation between Globular Cluster Systems and Supermassive Black Holes in Spiral Galaxies. III. The Link to the M •–M * Correlation

Cited by 6 publications

References 103 publications

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M*,spheroid andMbh–M*,galaxy diagrams

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M*,spheroid andMbh–M*,galaxy diagrams

Scaling relations for globular cluster systems in early-type galaxies – III. The inner flattening of the radial distributions

Probing supermassive black hole growth and its dependence on stellar mass and star formation rate in low-redshift galaxies

Contact Info

Product

Resources

About

The Relation between Globular Cluster Systems and Supermassive Black Holes in Spiral Galaxies. III. The Link to the M _•–M _* Correlation

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M,spheroid andMbh–M,galaxy diagrams

Splitting the lentils: Clues to galaxy/black hole coevolution from the discovery of offset relations for non-dusty versus dusty (wet-merger-built) lenticular galaxies in theMbh–M,spheroid andMbh–M,galaxy diagrams