Dust Growth and Evolution in Protoplanetary Disks

IF 26.3 1区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Annual Review of Astronomy and Astrophysics Pub Date : 2024-04-19 DOI:10.1146/annurev-astro-071221-052705
Tilman Birnstiel
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Abstract

Over the past decade, advancement of observational capabilities, specifically the Atacama Large Millimeter/submillimeter Array (ALMA) and Spectro-Polarimetric High-contrast Exoplanet REsearch (SPHERE) instruments, alongside theoretical innovations like pebble accretion, have reshaped our understanding of planet formation and the physics of protoplanetary disks. Despite this progress, mysteries persist along the winded path of micrometer-sized dust, from the interstellar medium, through transport and growth in the protoplanetary disk, to becoming gravitationally bound bodies. This review outlines our current knowledge of dust evolution in circumstellar disks, yielding the following insights: Theoretical and laboratory studies have accurately predicted the growth of dust particles to sizes that are susceptible to accumulation through transport processes like radial drift and settling. Critical uncertainties in that process remain the level of turbulence, the threshold collision velocities at which dust growth stalls, and the evolution of dust porosity. Symmetric and asymmetric substructure are widespread. Dust traps appear to be solving several long-standing issues in planet formation models, and they are observationally consistent with being sites of active planetesimal formation. In some instances, planets have been identified as the causes behind substructures. This underlines the need to study earlier stages of disks to understand how planets can form so rapidly. In the future, better probes of the physical conditions in optically thick regions, including densities, turbulence strength, kinematics, and particle properties will be essential for unraveling the physical processes at play.
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原行星盘中的尘埃生长与演化
在过去十年中,观测能力的进步,特别是阿塔卡马大毫米/亚毫米波阵列(ALMA)和光谱-极坐标高对比度系外行星研究(SPHERE)仪器,以及鹅卵石吸积等理论创新,重塑了我们对行星形成和原行星盘物理学的认识。尽管取得了这些进展,但微米大小的尘埃从星际介质到原行星盘中的迁移和生长,再到成为具有引力束缚的天体,其曲折的轨迹仍然充满了谜团。这篇综述概述了我们目前对星盘内尘埃演化的了解,并提出了以下见解: 理论和实验室研究已经准确预测了尘埃粒子的生长过程,通过径向漂移和沉降等传输过程,尘埃粒子的大小很容易累积。 这一过程中的关键不确定因素仍然是湍流水平、尘埃生长停滞的临界碰撞速度以及尘埃孔隙率的演变。 对称和非对称亚结构普遍存在。尘埃陷阱似乎解决了行星形成模型中几个长期存在的问题,而且从观测结果来看,它们与行星形成的活跃地点相吻合。 在某些情况下,行星被认为是亚结构背后的原因。这强调了研究星盘早期阶段的必要性,以了解行星如何能如此迅速地形成。 未来,更好地探测光学厚区域的物理条件,包括密度、湍流强度、运动学和粒子特性,对于揭示其中的物理过程至关重要。
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来源期刊
Annual Review of Astronomy and Astrophysics
Annual Review of Astronomy and Astrophysics 地学天文-天文与天体物理
CiteScore
54.80
自引率
0.60%
发文量
14
期刊介绍: The Annual Review of Astronomy and Astrophysics is covers significant developments in the field of astronomy and astrophysics including:The Sun,Solar system and extrasolar planets,Stars,Interstellar medium,Galaxy and galaxies,Active galactic nuclei,Cosmology,Instrumentation and techniques, History of the development of new areas of research.
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