MASS ESTIMATES OF A GIANT PLANET IN A PROTOPLANETARY DISK FROM THE GAP STRUCTURES

Kanagawa, Kazuhiro D.; Muto, Takayuki; Tanaka, Hidekazu; Tanigawa, Takayuki; Takeuchi, Taku; Tsukagoshi, Takashi; Momose, Munetake

doi:10.1088/2041-8205/806/1/L15


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MASS ESTIMATES OF A GIANT PLANET IN A PROTOPLANETARY DISK FROM THE GAP STRUCTURES

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Please use this identifier to cite or link to this item:http://hdl.handle.net/2115/62095

Title:	MASS ESTIMATES OF A GIANT PLANET IN A PROTOPLANETARY DISK FROM THE GAP STRUCTURES
Authors:	Kanagawa, Kazuhiro D. Browse this author
	Muto, Takayuki Browse this author
	Tanaka, Hidekazu Browse this author
	Tanigawa, Takayuki Browse this author
	Takeuchi, Taku Browse this author
	Tsukagoshi, Takashi Browse this author
	Momose, Munetake Browse this author
Keywords:	planet-disk interactions
	protoplanetary disks
	stars: individual (HD 169142, HL Tau)
Issue Date:	8-Jun-2015
Publisher:	IOP Publishing
Journal Title:	Astrophysical journal letters
Volume:	806
Issue:	1
Start Page:	L15
Publisher DOI:	10.1088/2041-8205/806/1/L15
Abstract:	A giant planet embedded in a protoplanetary disk forms a gap. An analytic relationship among the gap depth, planet mass M-p, disk aspect ratio h(p), and viscosity alpha has been found recently, and the gap depth can be written in terms of a single parameter K = (M-p/M-*)(2)h(p)(-5)alpha(-1). We discuss how observed gap features can be used to constrain the disk and/or planet parameters based on the analytic formula for the gap depth. The constraint on the disk aspect ratio is critical in determining the planet mass so the combination of the observations of the temperature and the image can provide a constraint on the planet mass. We apply the formula for the gap depth to observations of HL Tau and HD 169142. In the case of HL Tau, we propose that a planet with greater than or similar to 0.3M(J) is responsible for the observed gap at 30 AU from the central star based on the estimate that the gap depth is less than or similar to 1/3. In the case of HD 169142, the planet mass that causes the gap structure recently found by VLA is greater than or similar to 0.4M(J). We also argue that the spiral structure, if observed, can be used to estimate the lower limit of the disk aspect ratio and the planet mass.
Type:	article
URI:	http://hdl.handle.net/2115/62095
Appears in Collections:	低温科学研究所 (Institute of Low Temperature Science) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 金川和弘

OAI-PMH ( junii2 , jpcoar_1.0 )

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