The Black Hole Mass Function Derived From Local Spiral Galaxies

Davis, Benjamin L.; Berrier, Joel C.; Johns, Lucas; Shields, Douglas W.; Hartley, Matthew; Kennefick, Daniel; Kennefick, Julia; Seigar, Marc S.; Lacy, Claud H.

doi:10.1088/0004-637x/789/2/124

Cited by 63 publications

(136 citation statements)

References 56 publications

(121 reference statements)

Supporting

Mentioning

116

Contrasting

Order By: Relevance

“…We established the Sérsic index distribution for earlytype (E/S0) galaxies in our sample. Davis et al (2014) established the pitch angle distribution for their sample, which is identical to our late-type (spiral) galaxy sample. We then used the pitch angle and the Sérsic index distributions in order to estimate the SMBH mass function for our volume-limited sample.…”

mentioning

confidence: 69%

“…The sensitivity of the low-mass end of the BHMF based on these assumptions is well presented in Figure A2 of Vika et al (2009). Recently, Davis et al (2014) estimated the BHMF by using the SMBH mass versus spiral arm pitch angle relation for a nearly complete sample of local spiral galaxies in order to produce reliable data for the low-mass end of the local BHMF. In this paper, we aim to estimate a local BHMF for all galaxy types within the same volume limits in order to complement this late-type BHMF.…”

Section: Introductionmentioning

confidence: 95%

“…Salucci et al 1999;Yu & Tremaine 2002;Marconi et al 2004;Shankar et al 2004;Vika et al 2009;Davis et al 2014). A robust BHMF helps to describe the evolution of the SMBH distribution and provides important constraints on the coevolution of the quasar and black hole populations.…”

Section: Introductionmentioning

confidence: 99%

“…In this paper, we aim to estimate a local BHMF for all galaxy types within the same volume limits in order to complement this late-type BHMF. Therefore, we used the identical sample selection criteria used by Davis et al (2014).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE M_BH–P AND THE M_BH–n RELATIONS

Mutlu-Pakdil

Seigar

Davis

2016

ApJ

Self Cite

View full text Add to dashboard Cite

We present a determination of the supermassive black hole (SMBH) mass function for early-and latetype galaxies in the nearby universe (z < 0.0057), established from a volume-limited sample consisting of a statistically complete collection of the brightest spiral galaxies in the southern hemisphere. The sample is defined by limiting luminosity (redshift-independent) distance, D L = 25.4 Mpc, and a limiting absolute B-band magnitude, M B = −19.12. These limits define a sample of 140 spiral, 30 elliptical (E), and 38 lenticular (S0) galaxies. We established the Sérsic index distribution for earlytype (E/S0) galaxies in our sample. Davis et al. (2014) established the pitch angle distribution for their sample, which is identical to our late-type (spiral) galaxy sample. We then used the pitch angle and the Sérsic index distributions in order to estimate the SMBH mass function for our volume-limited sample. The observational simplicity of our approach relies on the empirical relation between the mass of the central SMBH and the Sérsic index ) for an early-type galaxy or the logarithmic spiral arm pitch angle (Berrier et al. 2013) for a spiral galaxy. Our SMBH mass function agrees well at the high-mass end with previous values in the literature. At the low-mass end, while inconsistencies exist in previous works that still need to be resolved, our work is more in line with expectations based on modeling of black hole evolution.

show abstract

mentioning

confidence: 69%

Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE M_BH–P AND THE M_BH–n RELATIONS

Mutlu-Pakdil

Seigar

Davis

2016

ApJ

Self Cite

View full text Add to dashboard Cite

show abstract

“…(ii) the observed black hole mass function (Graham et al 2007;Shankar et al 2009;Vika et al 2009;Davis et al 2014;Mutlu-Pakdil et al 2016) and Magorrian relation (Thornton et al 2008;Jiang et al 2011;Mathur et al 2012;Jiang et al 2013;Reines et al 2013;Scott et al 2013;Busch et al 2014;Sanghvi et al 2014;Yuan et al 2014) at low redshift (z 0.5);…”

Section: Galaxy and Black Hole Propertiesmentioning

confidence: 99%

Dark-ages reionization and galaxy formation simulation – X. The small contribution of quasars to reionization

Qin

Mutch

Poole

et al. 2017

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

Motivated by recent measurements of the number density of faint AGN at high redshift, we investigate the contribution of quasars to reionization by tracking the growth of central supermassive black holes in an update of the Meraxes semi-analytic model. The model is calibrated against the observed stellar mass function at z ∼ 0.6 − 7, the black hole mass function at z 0.5, the global ionizing emissivity at z ∼ 2 − 5 and the Thomson scattering optical depth. The model reproduces a Magorrian relation in agreement with observations at z < 0.5 and predicts a decreasing black hole mass towards higher redshifts at fixed total stellar mass. With the implementation of an opening angle of 80 deg for quasar radiation, corresponding to an observable fraction of ∼23.4 per cent due to obscuration by dust, the model is able to reproduce the observed quasar luminosity function at z ∼ 0.6 − 6. The stellar light from galaxies hosting faint AGN contributes a significant or dominant fraction of the UV flux. At high redshift, the model is consistent with the bright end quasar luminosity function and suggests that the recent faint z ∼ 4 AGN sample compiled by Giallongo et al. (2015) includes a significant fraction of stellar light. Direct application of this luminosity function to the calculation of AGN ionizing emissivity consequently overestimates the number of ionizing photons produced by quasars by a factor of 3 at z ∼ 6. We conclude that quasars are unlikely to make a significant contribution to reionization.

show abstract

Galactic Bulge–Black Hole Co‐evolution, Feeding and Feedback of AGNs

Combes

2022

Active Galactic Nuclei

View full text Add to dashboard Cite

show abstract

The Black Hole Mass Function Derived From Local Spiral Galaxies

Cited by 63 publications

References 56 publications

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE M_BH–P AND THE M_BH–n RELATIONS

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE M_BH–P AND THE M_BH–n RELATIONS

Dark-ages reionization and galaxy formation simulation – X. The small contribution of quasars to reionization

Galactic Bulge–Black Hole Co‐evolution, Feeding and Feedback of AGNs

Contact Info

Product

Resources

About

The Black Hole Mass Function Derived From Local Spiral Galaxies

Cited by 63 publications

References 56 publications

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE MBH–P AND THE MBH–n RELATIONS

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE MBH–P AND THE MBH–n RELATIONS

Dark-ages reionization and galaxy formation simulation – X. The small contribution of quasars to reionization

Galactic Bulge–Black Hole Co‐evolution, Feeding and Feedback of AGNs

Contact Info

Product

Resources

About

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE M_BH–P AND THE M_BH–n RELATIONS

THE LOCAL BLACK HOLE MASS FUNCTION DERIVED FROM THE M_BH–P AND THE M_BH–n RELATIONS