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Abstract
Abstract Ring structures are observed through (sub)millimeter dust continuum emission in various circumstellar disks from the early stages of class 0 and I to the late stage of class II young stellar objects (YSOs). In this paper, we study one of the possible scenarios for such ring formation, which is the coagulation of dust aggregates in the early stage. The dust grains grow in an inside-out manner because the growth timescale is roughly proportional to the orbital period. The boundary of the dust evolution can be regarded as the growth front, where the growth time is comparable to the disk age. Using radiative transfer calculations based on the dust coagulation model, we find that the growth front can be observed as a ring structure because the dust surface density changes sharply at this position. Furthermore, we confirm that the observed ring positions in YSOs with an age of ≲1 Myr are consistent with the growth front. The growth front could be important in creating the ring structure in particular for the early stage of disk evolution, such as class 0 and I sources.
Highlights
A Keplarian disk is formed around a protostar and plays an essential role in planet formation
With radiative transfer calculations based on the dust coagulation model, we find that the growth front can be observed as a ring structure because dust surface density is sharply changed at this position
We find that the growth front shows the ring structure and is consistent with the observed ring positions in particular for the disks around Class 0 and I sources
Summary
A Keplarian disk is formed around a protostar and plays an essential role in planet formation. The evolution of dust coagulation model has been studied by Nakagawa et al (1981); Tanaka et al (2005); Dullemond & Dominik (2005); Brauer et al (2008); Birnstiel et al (2010); Okuzumi et al (2012) and others in order to investigate the formation of planetesimals or planets, but its connection to the ring structures have not been explored. By using this dust model, we discuss whether the dust evolution by the coagulation can be observed as a ring structure during the grain growth
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