Stellar Encounters in the Context of Outburst Phenomena
Young stellar systems are known to undergo outbursts, where the star experiences an increased accretion rate, and the system's luminosity increases accordingly. The archetype is the FU Orionis (FU Ori) outburst, where the accretion rate can increase by three orders of magnitude (and the brightn...
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| Published in | arXiv.org |
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| Main Authors | , |
| Format | Paper Journal Article |
| Language | English |
| Published |
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Cornell University Library, arXiv.org
03.11.2009
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| Abstract | Young stellar systems are known to undergo outbursts, where the star experiences an increased accretion rate, and the system's luminosity increases accordingly. The archetype is the FU Orionis (FU Ori) outburst, where the accretion rate can increase by three orders of magnitude (and the brightness of the system by five magnitudes). The cause appears to be instability in the circumstellar disc, but there is currently some debate as to the nature of this instability (e.g. thermal, gravitational, magneto-rotational). This paper details high resolution Smoothed Particle Hydrodynamics (SPH) simulations that were carried out to investigate the influence of stellar encounters on disc dynamics. Star-star encounters (where the primary has a self-gravitating, marginally stable protostellar disc) were simulated with various orbital parameters to investigate the resulting disc structure and dynamics. Crucially, the simulations include the effects of radiative transfer to realistically model the resulting thermodynamics. Our results show that the accretion history and luminosity of the system during the encounter displays many of the features of outburst phenomena. In particular, the magnitudes and decay times seen are comparable to those of FU Ori. There are two caveats to this assertion: the first is that these events are not expected to occur frequently enough to explain all FU Ori or EX Lupi; the second is that the inner discs of these simulations are subject to numerical viscosity, which will act to reduce the accretion rate (although it has less of an effect on the total mass accreted). In short, these results cannot rule out binary interactions as a potential source of some FU Ori-esque outbursts. |
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| AbstractList | Young stellar systems are known to undergo outbursts, where the star
experiences an increased accretion rate, and the system's luminosity increases
accordingly. The archetype is the FU Orionis (FU Ori) outburst, where the
accretion rate can increase by three orders of magnitude (and the brightness of
the system by five magnitudes). The cause appears to be instability in the
circumstellar disc, but there is currently some debate as to the nature of this
instability (e.g. thermal, gravitational, magneto-rotational). This paper
details high resolution Smoothed Particle Hydrodynamics (SPH) simulations that
were carried out to investigate the influence of stellar encounters on disc
dynamics. Star-star encounters (where the primary has a self-gravitating,
marginally stable protostellar disc) were simulated with various orbital
parameters to investigate the resulting disc structure and dynamics. Crucially,
the simulations include the effects of radiative transfer to realistically
model the resulting thermodynamics. Our results show that the accretion history
and luminosity of the system during the encounter displays many of the features
of outburst phenomena. In particular, the magnitudes and decay times seen are
comparable to those of FU Ori. There are two caveats to this assertion: the
first is that these events are not expected to occur frequently enough to
explain all FU Ori or EX Lupi; the second is that the inner discs of these
simulations are subject to numerical viscosity, which will act to reduce the
accretion rate (although it has less of an effect on the total mass accreted).
In short, these results cannot rule out binary interactions as a potential
source of some FU Ori-esque outbursts. Young stellar systems are known to undergo outbursts, where the star experiences an increased accretion rate, and the system's luminosity increases accordingly. The archetype is the FU Orionis (FU Ori) outburst, where the accretion rate can increase by three orders of magnitude (and the brightness of the system by five magnitudes). The cause appears to be instability in the circumstellar disc, but there is currently some debate as to the nature of this instability (e.g. thermal, gravitational, magneto-rotational). This paper details high resolution Smoothed Particle Hydrodynamics (SPH) simulations that were carried out to investigate the influence of stellar encounters on disc dynamics. Star-star encounters (where the primary has a self-gravitating, marginally stable protostellar disc) were simulated with various orbital parameters to investigate the resulting disc structure and dynamics. Crucially, the simulations include the effects of radiative transfer to realistically model the resulting thermodynamics. Our results show that the accretion history and luminosity of the system during the encounter displays many of the features of outburst phenomena. In particular, the magnitudes and decay times seen are comparable to those of FU Ori. There are two caveats to this assertion: the first is that these events are not expected to occur frequently enough to explain all FU Ori or EX Lupi; the second is that the inner discs of these simulations are subject to numerical viscosity, which will act to reduce the accretion rate (although it has less of an effect on the total mass accreted). In short, these results cannot rule out binary interactions as a potential source of some FU Ori-esque outbursts. |
| Author | Rice, Ken gan, Duncan |
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| BackLink | https://doi.org/10.1111/j.1365-2966.2009.15974.x$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.0911.0531$$DView paper in arXiv |
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| Snippet | Young stellar systems are known to undergo outbursts, where the star experiences an increased accretion rate, and the system's luminosity increases... Young stellar systems are known to undergo outbursts, where the star experiences an increased accretion rate, and the system's luminosity increases... |
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| SubjectTerms | Accretion disks Binary stars Computational fluid dynamics Computer simulation Deposition Fluid flow Gravitation Luminosity Mathematical models Outbursts Physics - Earth and Planetary Astrophysics Physics - Solar and Stellar Astrophysics Protostars Radiative transfer Smooth particle hydrodynamics Stability Stellar systems |
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