The architecture of planetary systems depends on the evolution of the disks in which they form. In this work, we develop a population synthesis approach to interpret the Atacama Large Millimeter/submillimeter Array survey of Gas Evolution of PROtoplanetary Disks (AGE-PRO) measurements of disk gas mass and size considering two scenarios: turbulence-driven evolution with photoevaporative winds and MHD wind-driven evolution. A systematic method is proposed to constrain the distribution of disk parameters from the disk fractions, accretion rates, disk gas masses, and CO gas sizes. We find that turbulence-driven accretion with initially compact disks (R0 ≃ 5-20 au), low mass-loss rates, and relatively long viscous timescales (tν,0 ≃ 0.4-3 Myr or αSS ≃ 2-4 × 10−4) can reproduce the disk fractions and gas sizes. However, the distribution of apparent disk lifetimes defined as the M D / M ̇ * ratio is severely overestimated by turbulence-driven models. On the other hand, MHD wind-driven accretion can reproduce the bulk properties of disk populations from Ophiuchus to Upper Scorpius assuming compact disks with an initial magnetization of about β ≃ 105 (αDW ≃ 0.5-1 × 10−3) and a magnetic field that declines with time. More studies are needed to confirm the low masses found by AGE-PRO, notably for compact disks that question turbulence-driven accretion. The constrained synthetic disk populations can now be used for realistic planet population models to interpret the properties of planetary systems on a statistical basis.
The ALMA Survey of Gas Evolution of PROtoplanetary Disks (AGE-PRO). VII. Testing Accretion Mechanisms from Disk Population Synthesis / B. Tabone, G.P. Rosotti, L. Trapman, P. Pinilla, I. Pascucci, A. Somigliana, R. Alexander, M. Vioque, R. Anania, A. Kuznetsova, K. Zhang, L.M. Pérez, L.A. Cieza, J. Carpenter, D. Deng, C. Agurto-Gangas, D.A. Ruiz-Rodriguez, A. Sierra, N.T. Kurtovic, J. Miley, C. González-Ruilova, E. Torresvillanueva, M.R. Hogerheijde, K. Schwarz, C. Toci, L. Testi, G. Lodato. - In: THE ASTROPHYSICAL JOURNAL. - ISSN 0004-637X. - 989:1(2025 Aug 10). [10.3847/1538-4357/adc7b1]
The ALMA Survey of Gas Evolution of PROtoplanetary Disks (AGE-PRO). VII. Testing Accretion Mechanisms from Disk Population Synthesis
G.P. Rosotti;R. Anania;C. Toci;G. LodatoUltimo
2025
Abstract
The architecture of planetary systems depends on the evolution of the disks in which they form. In this work, we develop a population synthesis approach to interpret the Atacama Large Millimeter/submillimeter Array survey of Gas Evolution of PROtoplanetary Disks (AGE-PRO) measurements of disk gas mass and size considering two scenarios: turbulence-driven evolution with photoevaporative winds and MHD wind-driven evolution. A systematic method is proposed to constrain the distribution of disk parameters from the disk fractions, accretion rates, disk gas masses, and CO gas sizes. We find that turbulence-driven accretion with initially compact disks (R0 ≃ 5-20 au), low mass-loss rates, and relatively long viscous timescales (tν,0 ≃ 0.4-3 Myr or αSS ≃ 2-4 × 10−4) can reproduce the disk fractions and gas sizes. However, the distribution of apparent disk lifetimes defined as the M D / M ̇ * ratio is severely overestimated by turbulence-driven models. On the other hand, MHD wind-driven accretion can reproduce the bulk properties of disk populations from Ophiuchus to Upper Scorpius assuming compact disks with an initial magnetization of about β ≃ 105 (αDW ≃ 0.5-1 × 10−3) and a magnetic field that declines with time. More studies are needed to confirm the low masses found by AGE-PRO, notably for compact disks that question turbulence-driven accretion. The constrained synthetic disk populations can now be used for realistic planet population models to interpret the properties of planetary systems on a statistical basis.
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2506.10742v1.pdf
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Descrizione: Arxiv https://doi.org/10.48550/arXiv.2506.10742
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Tabone_2025_ApJ_989_7.pdf
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