2018
DOI: 10.1093/mnras/sty169
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On the diversity and statistical properties of protostellar discs

Abstract: We present results from the first population synthesis study of protostellar discs. We analyse the evolution and properties of a large sample of protostellar discs formed in a radiation hydrodynamical simulation of star cluster formation. Due to the chaotic nature of the star formation process, we find an enormous diversity of young protostellar discs, including misaligned discs, and discs whose orientations vary with time. Star-disc interactions truncate discs and produce multiple systems. Discs may be destro… Show more

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Cited by 311 publications
(354 citation statements)
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References 313 publications
(463 reference statements)
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“…We made sure that the final star-disk angle ψ sd is well converged to the value without implementing the procedure, while the amplitude of the stellar spin is significantly suppressed. In addition, as shown by Bate (2018), the star-disk misalignment can be captured even without the sub-grid model in the calculation of the Table 1. The model names and parameters which characterize the initial molecular cloud core; α = E thermal / |E grav |, γ turb = E turb / |E grav |, β eff is the dimensionless angular momentum, R init and ρ init = 3M init /(4π R 3 init ) are the initial radius and density of the cloud cores, M is the mean Mach number, t ff = 3π/(32Gρ init ) is the free-fall time of the initial cloud cores, ψ sd (t = 10 2 yr) and ψ sd (t = 10 5 yr) are the star-disk angles measured at t = 10 2 yr and t = 10 5 yr from the protostar formation epoch.…”
Section: Definitions Of Protostar Disk and Envelope In Our Simulationmentioning
confidence: 98%
“…We made sure that the final star-disk angle ψ sd is well converged to the value without implementing the procedure, while the amplitude of the stellar spin is significantly suppressed. In addition, as shown by Bate (2018), the star-disk misalignment can be captured even without the sub-grid model in the calculation of the Table 1. The model names and parameters which characterize the initial molecular cloud core; α = E thermal / |E grav |, γ turb = E turb / |E grav |, β eff is the dimensionless angular momentum, R init and ρ init = 3M init /(4π R 3 init ) are the initial radius and density of the cloud cores, M is the mean Mach number, t ff = 3π/(32Gρ init ) is the free-fall time of the initial cloud cores, ψ sd (t = 10 2 yr) and ψ sd (t = 10 5 yr) are the star-disk angles measured at t = 10 2 yr and t = 10 5 yr from the protostar formation epoch.…”
Section: Definitions Of Protostar Disk and Envelope In Our Simulationmentioning
confidence: 98%
“…We computed the time evolution of discs around 0.1 and 1.0 M stars, with initial disc-to-star mass ratios of ∼ 1 and an outer radius of 100 AU. This initial disc mass is high, but such values do appear in the simulations of star formation that naturally produce discs (Bate 2018). The evolution of the disc-to-star mass ratio and self-gravitationally driven effective α viscosity is given for each model in Figure 1.…”
Section: Time Dependent Self-gravitating Disc Modelsmentioning
confidence: 99%
“…Quantifying disk properties has also been approached numerically in Bate (2018), who used radiative hydrodynamic calculations to compute distributions of disk masses and radii resulting from protostellar collapse. This work shows that initial disk radii significantly larger than ∼ 70 AU are uncommon.…”
Section: Introductionmentioning
confidence: 99%