Intermediate mass black hole seeds from cosmic string loops

AbstractDetecting the seed black holes from which quasars formed is extremely challenging; however, those seeds that did not grow into supermassive should be found as intermediate-mass black holes (IMBHs) of 100 – 105 M⊙ in local dwarf galaxies. The use of deep multiwavelength surveys has revealed that a population of actively accreting IMBHs (low-mass AGN) exists in dwarf galaxies at least out to z ˜3. The black hole occupation fraction of these galaxies suggests that the early Universe seed black holes formed from direct collapse of gas, which is reinforced by the possible flattening of the black hole-galaxy scaling relations at the low-mass end. This scenario is however challenged by the finding that AGN feedback can have a strong impact on dwarf galaxies, which implies that low-mass AGN in dwarf galaxies might not be the untouched relics of the early seed black holes. This has important implications for seed black hole formation models.

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Refining the mass estimate for the intermediate-mass black hole candidate in NGC 3319

Publications of the Astronomical Society of Australia ◽

10.1017/pasa.2021.23 ◽

2021 ◽

Vol 38 ◽

Author(s):

Benjamin L. Davis ◽

Alister W. Graham

Keyword(s):

Black Holes ◽

Black Hole ◽

Meta Analysis ◽

Rotational Velocity ◽

Logarithmic Spiral ◽

Star Cluster ◽

Black Hole Mass ◽

Intermediate Mass ◽

Mass Scaling ◽

Cluster Mass

Abstract Recent X-ray observations by Jiang et al. have identified an active galactic nucleus (AGN) in the bulgeless spiral galaxy NGC 3319, located just $14.3\pm 1.1$ Mpc away, and suggest the presence of an intermediate-mass black hole (IMBH; $10^2\leq M_\bullet/\textrm{M}_{\odot}\leq 10^5$ ) if the Eddington ratios are as high as 3 to $3\times10^{-3}$ . In an effort to refine the black hole mass for this (currently) rare class of object, we have explored multiple black hole mass scaling relations, such as those involving the (not previously used) velocity dispersion, logarithmic spiral arm pitch angle, total galaxy stellar mass, nuclear star cluster mass, rotational velocity, and colour of NGC 3319, to obtain 10 mass estimates, of differing accuracy. We have calculated a mass of $3.14_{-2.20}^{+7.02}\times10^4\,\textrm{M}_\odot$ , with a confidence of 84% that it is $\leq $ $10^5\,\textrm{M}_\odot$ , based on the combined probability density function from seven of these individual estimates. Our conservative approach excluded two black hole mass estimates (via the nuclear star cluster mass and the fundamental plane of black hole activity—which only applies to black holes with low accretion rates) that were upper limits of ${\sim}10^5\,{\textrm M}_{\odot}$ , and it did not use the $M_\bullet$ – $L_{\textrm 2-10\,\textrm{keV}}$ relation’s prediction of $\sim$ $10^5\,{\textrm M}_{\odot}$ . This target provides an exceptional opportunity to study an IMBH in AGN mode and advance our demographic knowledge of black holes. Furthermore, we introduce our novel method of meta-analysis as a beneficial technique for identifying new IMBH candidates by quantifying the probability that a galaxy possesses an IMBH.

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Intermediate-mass black holes in globular clusters: observations and simulations - Update

Proceedings of the International Astronomical Union ◽

10.1017/s1743921315010601 ◽

2015 ◽

Vol 12 (S316) ◽

pp. 240-245

Author(s):

Nora Lützgendorf ◽

Markus Kissler-Patig ◽

Karl Gebhardt ◽

Holger Baumgardt ◽

Diederik Kruijssen ◽

...

Keyword(s):

Black Holes ◽

Black Hole ◽

Globular Clusters ◽

Galactic Center ◽

Early Stage ◽

Life Time ◽

Intermediate Mass ◽

Software Environment ◽

Integral Field ◽

Intermediate Mass Black Holes

AbstractThe study of intermediate-mass black holes (IMBHs) is a young and promising field of research. If IMBH exist, they could explain the rapid growth of supermassive black holes by acting as seeds in the early stage of galaxy formation. Formed by runaway collisions of massive stars in young and dense stellar clusters, intermediate-mass black holes could still be present in the centers of globular clusters, today. We measured the inner kinematic profiles with integral-field spectroscopy for 10 Galactic globular cluster and determined masses or upper limits of central black holes. In combination with literature data we further studied the positions of our results on known black-hole scaling relations (such as M• − σ) and found a similar but flatter correlation for IMBHs. Applying cluster evolution codes, the change in the slope could be explained with the stellar mass loss occurring in clusters in a tidal field over its life time. Furthermore, we present results from several numerical simulations on the topic of IMBHs and integral field units (IFUs). N-body simulations were used to simulate IFU data cubes. For the specific case of NGC 6388 we simulated two different IFU techniques and found that velocity dispersion measurements from individual velocities are strongly biased towards lower values due to blends of neighbouring stars and background light. In addition, we use the Astrophysical Multipurpose Software Environment (AMUSE) to combine gravitational physics, stellar evolution and hydrodynamics to simulate the accretion of stellar winds onto a black hole. We find that the S-stars need to provide very strong winds in order to explain the accretion rate in the galactic center.

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Gravitational Waves and Intermediate-mass Black Hole Retention in Globular Clusters

The Astrophysical Journal ◽

10.3847/1538-4357/aab368 ◽

2018 ◽

Vol 856 (2) ◽

pp. 92 ◽

Cited By ~ 47

Author(s):

Giacomo Fragione ◽

Idan Ginsburg ◽

Bence Kocsis

Keyword(s):

Black Hole ◽

Gravitational Waves ◽

Globular Clusters ◽

Intermediate Mass

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High precision source characterization of intermediate mass-ratio black hole coalescences with gravitational waves: The importance of higher order multipoles

Physical Review D ◽

10.1103/physrevd.104.084068 ◽

2021 ◽

Vol 104 (8) ◽

Author(s):

Tousif Islam ◽

Scott E. Field ◽

Carl-Johan Haster ◽

Rory Smith

Keyword(s):

Black Hole ◽

Gravitational Waves ◽

High Precision ◽

Higher Order ◽

Mass Ratio ◽

Source Characterization ◽

Intermediate Mass

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RBS 1032: a dwarf-nucleated spheroidal galaxy with an intermediate-mass black hole hosted in a globular cluster

Monthly Notices of the Royal Astronomical Society ◽

10.1111/j.1365-2966.2006.10723.x ◽

2006 ◽

Vol 371 (4) ◽

pp. 1587-1593 ◽

Cited By ~ 10

Author(s):

K. K. Ghosh ◽

V. Suleymanov ◽

I. Bikmaev ◽

S. Shimansky ◽

N. Sakhibullin

Keyword(s):

Black Hole ◽

Globular Cluster ◽

Intermediate Mass

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Renormalized vacuum polarization and stress tensor on the horizon of a Schwarzschild black hole threaded by a cosmic string

Classical and Quantum Gravity ◽

10.1088/0264-9381/28/1/015007 ◽

2010 ◽

Vol 28 (1) ◽

pp. 015007 ◽

Cited By ~ 13

Author(s):

Adrian C Ottewill ◽

Peter Taylor

Keyword(s):

Black Hole ◽

Stress Tensor ◽

Cosmic String ◽

Vacuum Polarization ◽

Schwarzschild Black Hole

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No evidence for intermediate-mass black holes in the globular clusters ω Cen and NGC 6624

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz2060 ◽

2019 ◽

Vol 488 (4) ◽

pp. 5340-5351 ◽

Cited By ~ 16

Author(s):

H Baumgardt ◽

C He ◽

S M Sweet ◽

M Drinkwater ◽

A Sollima ◽

...

Keyword(s):

Black Holes ◽

Black Hole ◽

Globular Clusters ◽

Surface Brightness ◽

Velocity Dispersion ◽

Stellar Mass ◽

Main Sequence Stars ◽

Intermediate Mass ◽

Measured Velocity ◽

Large Grid

ABSTRACT We compare the results of a large grid of N-body simulations with the surface brightness and velocity dispersion profiles of the globular clusters ω Cen and NGC 6624. Our models include clusters with varying stellar-mass black hole retention fractions and varying masses of a central intermediate-mass black hole (IMBH). We find that an $\sim 45\, 000$ M⊙ IMBH, whose presence has been suggested based on the measured velocity dispersion profile of ω Cen, predicts the existence of about 20 fast-moving, m > 0.5 M⊙, main-sequence stars with a (1D) velocity v > 60 km s−1 in the central 20 arcsec of ω Cen. However, no such star is present in the HST/ACS proper motion catalogue of Bellini et al. (2017), strongly ruling out the presence of a massive IMBH in the core of ω Cen. Instead, we find that all available data can be fitted by a model that contains 4.6 per cent of the mass of ω Cen in a centrally concentrated cluster of stellar-mass black holes. We show that this mass fraction in stellar-mass BHs is compatible with the predictions of stellar evolution models of massive stars. We also compare our grid of N-body simulations with NGC 6624, a cluster recently claimed to harbour a 20 000 M⊙ black hole based on timing observations of millisecond pulsars. However, we find that models with MIMBH > 1000 M⊙ IMBHs are incompatible with the observed velocity dispersion and surface brightness profile of NGC 6624, ruling out the presence of a massive IMBH in this cluster. Models without an IMBH provide again an excellent fit to NGC 6624.

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The Taiji program: A concise overview

Progress of Theoretical and Experimental Physics ◽

10.1093/ptep/ptaa083 ◽

2020 ◽

Author(s):

Ziren Luo ◽

Yan Wang ◽

Yueliang Wu ◽

Wenrui Hu ◽

Gang Jin

Keyword(s):

Black Hole ◽

Gravitational Waves ◽

Frequency Band ◽

Space Mission ◽

Mass Ratio ◽

Intermediate Mass ◽

Concise Overview

Abstract Taiji is a Chinese space mission to detect gravitational waves in the frequency band 0.1 mHz to 1.0 Hz, which aims at detecting super (intermediate) mass black hole mergers and extreme (intermediate) mass ratio in-spirals. A brief introduction of its mission overview, scientific objectives, and payload design is presented. A roadmap is also given in which the launching time is set to the 2030s.

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A ROBUST TEST OF GENERAL RELATIVITY IN SPACE

International Journal of Modern Physics D ◽

10.1142/s0218271807011401 ◽

2007 ◽

Vol 16 (12a) ◽

pp. 2319-2324 ◽

Cited By ~ 1

Author(s):

JAMES GRABER

Keyword(s):

Black Holes ◽

General Relativity ◽

Black Hole ◽

Quadrupole Moment ◽

Binary Systems ◽

High Mass ◽

Uniqueness Theorems ◽

Mass Ratio ◽

Intermediate Mass ◽

Robust Test

LISA may make it possible to test the black-hole uniqueness theorems of general relativity, also called the no-hair theorems, by Ryan's method of detecting the quadrupole moment of a black hole using high-mass-ratio inspirals. This test can be performed more robustly by observing inspirals in earlier stages, where the simplifications used in making inspiral predictions by the perturbative and post-Newtonian methods are more nearly correct. Current concepts for future missions such as DECIGO and BBO would allow even more stringent tests by this same method. Recently discovered evidence supports the existence of intermediate-mass black holes (IMBHs). Inspirals of binary systems with one IMBH and one stellar-mass black hole would fall into the frequency band of proposed maximum sensitivity for DECIGO and BBO. This would enable us to perform the Ryan test more precisely and more robustly. We explain why tests based on observations earlier in the inspiral are more robust and provide preliminary estimates of possible optimal future observations.

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