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The origin of tail-like structures around protoplanetary disks

Vorobyov, Eduard I. (författare)
Ural Federal University,University of Vienna,Southern Federal University
Skliarevskii, Alexandr M. (författare)
Southern Federal University
Elbakyan, Vardan G. (författare)
Lund University,Lunds universitet,Astronomi,Institutionen för astronomi och teoretisk fysik,Naturvetenskapliga fakulteten,Lund Observatory,Department of Astronomy and Theoretical Physics,Faculty of Science,Southern Federal University
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Takami, Michihiro (författare)
Academia Sinica, Institute of Astronomy and Astrophysics
Liu, Hauyu Baobab (författare)
Academia Sinica, Institute of Astronomy and Astrophysics
Liu, Sheng Yuan (författare)
Academia Sinica, Institute of Astronomy and Astrophysics
Akiyama, Eiji (författare)
Hokkaido University
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EDP Sciences, 2020
Ingår i: Astronomy and Astrophysics. - : EDP Sciences. - 0004-6361. ; 635
  • Tidskriftsartikel (refereegranskat)
Abstract Ämnesord
  • Aims. We study the origin of tail-like structures recently detected around the disk of SU Aurigae and several FU Orionis-type stars. Methods. Dynamic protostellar disks featuring ejections of gaseous clumps and quiescent protoplanetary disks experiencing a close encounter with an intruder star were modeled using the numerical hydrodynamics code FEOSAD. Both the gas and dust dynamics were taken into account, including dust growth and mutual friction between the gas and dust components. Only plane-of-the-disk encounters were considered. Results. Ejected clumps produce a unique type of tail that is characterized by a bow-shock shape. Such tails originate from the supersonic motion of ejected clumps through the dense envelope that often surrounds young gravitationally unstable protostellar disks. The ejected clumps either sit at the head of the tail-like structure or disperse if their mass is insufficient to withstand the head wind of the envelope. On the other hand, close encounters with quiescent protoplanetary disks produce three types of the tail-like structure; we define these as pre-collisional, post-collisional, and spiral tails. These tails can in principle be distinguished from one another by particular features of the gas and dust flow in and around them. We find that the brown-dwarf-mass intruders do not capture circumintruder disks during the encounter, while the subsolar-mass intruders can acquire appreciable circumintruder disks with elevated dust-to-gas ratios, which can ease their observational detection. However, this is true only for prograde collisions; the retrograde intruders fail to collect appreciable amounts of gas or dust from the disk of the target. The mass of gas in the tail varies in the range 0.85-11.8 MJup, while the total mass of dust lies in the 1.75-30.1 M⊙ range, with the spiral tails featuring the highest masses. The predicted mass of dust in the model tail-like structures is therefore higher than what was inferred for similar structures in SU Aur, FU Ori, and Z CMa, making their observational detection feasible. Conclusions. Tail-like structures around protostellar and protoplanetary disks can be used to infer interesting phenomena such as clump ejection or close encounters. In particular, the bow-shock morphology of the tails could point to clump ejections as a possible formation mechanism. Further numerical and observational studies are needed to better understand the detectability and properties of the tails.


NATURVETENSKAP  -- Fysik -- Astronomi, astrofysik och kosmologi (hsv//swe)
NATURAL SCIENCES  -- Physical Sciences -- Astronomy, Astrophysics and Cosmology (hsv//eng)
NATURVETENSKAP  -- Fysik (hsv//swe)
NATURAL SCIENCES  -- Physical Sciences (hsv//eng)


Protoplanetary disks
Stars: protostars

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