The importance of nuclear star clusters for massive black hole growth and nuclear star formation in simulated low-mass galaxies
Observed low-mass galaxies with nuclear star clusters (NSCs) can host accreting massive black holes (MBH). We present simulations of dwarf galaxies ($M_{\mathrm{baryon}} \sim 0.6 - 2.4 \times 10^8 \rm \, M_\odot$) at solar mass resolution ($0.5\rm \, M_\odot < m_{\mathrm{gas}} < 4 \rm \, M_\od...
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| Main Authors | , , , , , , , |
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| Format | Journal Article |
| Language | English |
| Published |
26.09.2024
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| Abstract | Observed low-mass galaxies with nuclear star clusters (NSCs) can host
accreting massive black holes (MBH). We present simulations of dwarf galaxies
($M_{\mathrm{baryon}} \sim 0.6 - 2.4 \times 10^8 \rm \, M_\odot$) at solar mass
resolution ($0.5\rm \, M_\odot < m_{\mathrm{gas}} < 4 \rm \, M_\odot$) with a
multi-phase interstellar medium (ISM) and investigate the impact of NSCs on MBH
growth and nuclear star formation (SF). The Griffin simulation model includes
non-equilibrium low temperature cooling, chemistry and the effect of HII
regions and supernovae (SN) from massive stars. Individual stars are sampled
down to 0.08 $\rm M_\odot$ and their non-softened gravitational interactions
with MBHs are computed with the regularised Ketju integrator. MBHs with masses
in the range of $10^2 - 10^5 \, \rm M_\odot$ are represented by accreting sink
particles without feedback. We find that the presence of NSCs boost nuclear SF
(i.e. NSC growth) and MBH accretion by funneling gas to the central few
parsecs. Low-mass MBHs grow more rapidly on $\sim 600$ Myr timescales,
exceeding their Eddington rates at peak accretion. MBH accretion and nuclear SF
is episodic (i.e. leads to multiple stellar generations), coeval and regulated
by SN explosions. On 40 - 60 Myr timescales the first SN of each episode
terminates MBH accretion and nuclear SF. Without NSCs, low-mass MBHs do not
grow and MBH accretion and reduced nuclear SF become irregular and
uncorrelated. This study gives the first insights into the possible
co-evolution of MBHs and NSCs in low-mass galaxies and highlights the
importance of considering dense NSCs in galactic studies of MBH growth. |
|---|---|
| AbstractList | Observed low-mass galaxies with nuclear star clusters (NSCs) can host
accreting massive black holes (MBH). We present simulations of dwarf galaxies
($M_{\mathrm{baryon}} \sim 0.6 - 2.4 \times 10^8 \rm \, M_\odot$) at solar mass
resolution ($0.5\rm \, M_\odot < m_{\mathrm{gas}} < 4 \rm \, M_\odot$) with a
multi-phase interstellar medium (ISM) and investigate the impact of NSCs on MBH
growth and nuclear star formation (SF). The Griffin simulation model includes
non-equilibrium low temperature cooling, chemistry and the effect of HII
regions and supernovae (SN) from massive stars. Individual stars are sampled
down to 0.08 $\rm M_\odot$ and their non-softened gravitational interactions
with MBHs are computed with the regularised Ketju integrator. MBHs with masses
in the range of $10^2 - 10^5 \, \rm M_\odot$ are represented by accreting sink
particles without feedback. We find that the presence of NSCs boost nuclear SF
(i.e. NSC growth) and MBH accretion by funneling gas to the central few
parsecs. Low-mass MBHs grow more rapidly on $\sim 600$ Myr timescales,
exceeding their Eddington rates at peak accretion. MBH accretion and nuclear SF
is episodic (i.e. leads to multiple stellar generations), coeval and regulated
by SN explosions. On 40 - 60 Myr timescales the first SN of each episode
terminates MBH accretion and nuclear SF. Without NSCs, low-mass MBHs do not
grow and MBH accretion and reduced nuclear SF become irregular and
uncorrelated. This study gives the first insights into the possible
co-evolution of MBHs and NSCs in low-mass galaxies and highlights the
importance of considering dense NSCs in galactic studies of MBH growth. |
| Author | Petersson, Jonathan Partmann, Christian Rantala, Antti Naab, Thorsten Hirschmann, Michaela Hislop, Jessica M Lahén, Natalia Johansson, Peter H |
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| BackLink | https://doi.org/10.48550/arXiv.2409.18096$$DView paper in arXiv |
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| Snippet | Observed low-mass galaxies with nuclear star clusters (NSCs) can host
accreting massive black holes (MBH). We present simulations of dwarf galaxies... |
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| Title | The importance of nuclear star clusters for massive black hole growth and nuclear star formation in simulated low-mass galaxies |
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