Amy E. Reines scite author profile

Scaling relations between central black hole (BH) mass and host galaxy properties are of fundamental importance to studies of BH and galaxy evolution throughout cosmic time. Here we investigate the relationship between BH mass and host galaxy total stellar mass using a sample of 262 broad-line active galactic nuclei (AGN) in the nearby Universe (z < 0.055), as well as 79 galaxies with dynamical BH masses. The vast majority of our AGN sample is constructed using Sloan Digital Sky Survey spectroscopy and searching for Seyfert-like narrow-line ratios and broad Hα emission. BH masses are estimated using standard virial techniques. We also include a small number of dwarf galaxies with total stellar masses M stellar 10 9.5 M ⊙ and a sub-sample of the reverberation-mapped AGNs. Total stellar masses of all 341 galaxies are calculated in the most consistent manner feasible using colordependent mass-to-light ratios. We find a clear correlation between BH mass and total stellar mass for the AGN host galaxies, with M BH ∝ M stellar , similar to that of early-type galaxies with dynamicallydetected BHs. However, the relation defined by the AGNs has a normalization that is lower by more than an order of magnitude, with a BH-to-total stellar mass fraction of M BH /M stellar ∼ 0.025% across the stellar mass range 10 8 ≤ M stellar /M ⊙ ≤ 10 12 . This result has significant implications for studies at high redshift and cosmological simulations in which stellar bulges cannot be resolved.

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Dwarf Galaxies With Optical Signatures of Active Massive Black Holes

Reines

Greene

Geha

2013

ApJ

517

829

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We present a sample of 151 dwarf galaxies (10 8.5 M 10 9.5 M ) that exhibit optical spectroscopic signatures of accreting massive black holes (BHs), increasing the number of known active galaxies in this stellar-mass range by more than an order of magnitude. Utilizing data from the Sloan Digital Sky Survey Data Release 8 and stellar masses from the NASA-Sloan Atlas, we have systematically searched for active BHs in ∼25,000 emission-line galaxies with stellar masses comparable to the Magellanic Clouds and redshifts z < 0.055. Using the narrow-line [O iii]/Hβ versus [N ii]/Hα diagnostic diagram, we find photoionization signatures of BH accretion in 136 galaxies, a small fraction of which also exhibit broad Hα emission. For these broad-line active galactic nucleus (AGN) candidates, we estimate BH masses using standard virial techniques and find a range of 10 5 M BH 10 6 M and a median of M BH ∼ 2 × 10 5 M . We also detect broad Hα in 15 galaxies that have narrow-line ratios consistent with star-forming galaxies. Follow-up observations are required to determine if these are true type 1 AGN or if the broad Hα is from stellar processes. The median absolute magnitude of the host galaxies in our active sample is M g = −18.1 mag, which is ∼1-2 mag fainter than previous samples of AGN hosts with low-mass BHs. This work constrains the smallest galaxies that can form a massive BH, with implications for BH feedback in low-mass galaxies and the origin of the first supermassive BH seeds.

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An actively accreting massive black hole in the dwarf starburst galaxy Henize 2-10

Reines¹,

Sivakoff²,

Johnson³

et al. 2011

Nature

230

321

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Supermassive black holes are now thought to lie at the heart of every giant galaxy with a spheroidal component, including our own Milky Way. The birth and growth of the first 'seed' black holes in the earlier Universe, however, is observationally unconstrained and we are only beginning to piece together a scenario for their subsequent evolution. Here we report that the nearby dwarf starburst galaxy Henize 2-10 (refs 5 and 6) contains a compact radio source at the dynamical centre of the galaxy that is spatially coincident with a hard X-ray source. From these observations, we conclude that Henize 2-10 harbours an actively accreting central black hole with a mass of approximately one million solar masses. This nearby dwarf galaxy, simultaneously hosting a massive black hole and an extreme burst of star formation, is analogous in many ways to galaxies in the infant Universe during the early stages of black-hole growth and galaxy mass assembly. Our results confirm that nearby star-forming dwarf galaxies can indeed form massive black holes, and that by implication so can their primordial counterparts. Moreover, the lack of a substantial spheroidal component in Henize 2-10 indicates that supermassive black-hole growth may precede the build-up of galaxy spheroids.

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A New Sample of (Wandering) Massive Black Holes in Dwarf Galaxies from High-resolution Radio Observations

Reines

Condon

Darling

et al. 2020

ApJ

251

245

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We present a sample of nearby dwarf galaxies with radio-selected accreting massive black holes (BHs), the majority of which are non-nuclear. We observed 111 galaxies using sensitive, high-resolution observations from the Karl G. Jansky Very Large Array (VLA) in its most extended A-configuration at X-band (∼8-12 GHz), yielding a typical angular resolution of ∼ 0. 25 and rms noise of ∼ 15 µJy. Our targets were selected by cross matching galaxies with stellar masses M 3×10 9 M and redshifts z < 0.055 in the NASA-Sloan Atlas with the VLA Faint Images of the Radio Sky at Twenty centimeters (FIRST) Survey. With our new high-resolution VLA observations, we detect compact radio sources towards 39 galaxies and carefully evaluate possible origins for the radio emission including thermal HII regions, supernova remnants, younger radio supernovae, background interlopers, and AGNs in the target galaxies. We find that 13 dwarf galaxies almost certainly host active massive BHs despite the fact that only one object was previously identified as having optical signatures of an AGN. We also identify a candidate dual radio AGN in a more massive galaxy system. The majority of the radio-detected BHs are offset from the center of the host galaxies with some systems showing signs of interactions/mergers. Our results indicate that massive BHs need not always live in the nuclei of dwarf galaxies, confirming predictions from simulations. Moreover, searches attempting to constrain BH seed formation using observations of dwarf galaxies need to account for such a population of "wandering" BHs.

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A ∼50,000 M _⊙ SOLAR MASS BLACK HOLE IN THE NUCLEUS OF RGG 118

Baldassare

Reines

Gallo

et al. 2015

ApJ

229

235

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Amy E. Reines

Relations Between Central Black Hole Mass and Total Galaxy Stellar Mass in the Local Universe

Dwarf Galaxies With Optical Signatures of Active Massive Black Holes

An actively accreting massive black hole in the dwarf starburst galaxy Henize 2-10

A New Sample of (Wandering) Massive Black Holes in Dwarf Galaxies from High-resolution Radio Observations

A ∼50,000 M _⊙ SOLAR MASS BLACK HOLE IN THE NUCLEUS OF RGG 118

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Amy E. Reines

Relations Between Central Black Hole Mass and Total Galaxy Stellar Mass in the Local Universe

Dwarf Galaxies With Optical Signatures of Active Massive Black Holes

An actively accreting massive black hole in the dwarf starburst galaxy Henize 2-10

A New Sample of (Wandering) Massive Black Holes in Dwarf Galaxies from High-resolution Radio Observations

A ∼50,000 M ⊙ SOLAR MASS BLACK HOLE IN THE NUCLEUS OF RGG 118

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A ∼50,000 M _⊙ SOLAR MASS BLACK HOLE IN THE NUCLEUS OF RGG 118