Constraints on a planetary origin for the gap in the protoplanetary disc of GM Aurigae

W. K.M. Rice; Kenneth Wood; P. J. Armitage; B. A. Whitney; J. E. Bjorkman

doi:10.1046/j.1365-8711.2003.06515.x

Constraints on a planetary origin for the gap in the protoplanetary disc of GM Aurigae

W. K.M. Rice
, Kenneth Wood
, P. J. Armitage
, B. A. Whitney
, J. E. Bjorkman

Physics and Astronomy

University of St Andrews
Space Science Institute
University of Toledo

Research output: Contribution to journal › Article › peer-review

133 Scopus citations

Abstract

The unusual spectral energy distribution (SED) of the classical T Tauri star GM Aurigae provides evidence for the presence of an inner disc hole extending to several au. Using a combination of hydrodynamical simulations and Monte Carlo radiative transport, we investigate whether the observed SED is consistent with the inner hole being created and maintained by an orbiting planet. We show that an ∼2 M_J planet, orbiting at 2.5 au in a disc with mass 0.047 M⊙ and radius 300 au, provides a good match both to the SED and to CO observations which constrain the velocity field in the disc. A range of planet masses is allowed by current data, but could in principle be distinguished with further observations between 3 and ∼20 μm. Future high-precision astrometric instruments should also be able to detect the motion of the central star caused by an orbiting Jupiter-mass planet. We argue that the small number of T Tauri stars with SEDs resembling that of GM Aur is broadly consistent with the expected statistics of embedded migrating planets.

Original language	English
Pages (from-to)	79-85
Number of pages	7
Journal	Monthly Notices of the Royal Astronomical Society
Volume	342
Issue number	1
DOIs	https://doi.org/10.1046/j.1365-8711.2003.06515.x
State	Published - Jun 11 2003

Keywords

Accretion, accretion discs
Dust, extinction
Planetary systems: Protoplanetary discs
Radiative transfer
Scattering
Stars: pre-main-sequence

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10.1046/j.1365-8711.2003.06515.x

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title = "Constraints on a planetary origin for the gap in the protoplanetary disc of GM Aurigae",

abstract = "The unusual spectral energy distribution (SED) of the classical T Tauri star GM Aurigae provides evidence for the presence of an inner disc hole extending to several au. Using a combination of hydrodynamical simulations and Monte Carlo radiative transport, we investigate whether the observed SED is consistent with the inner hole being created and maintained by an orbiting planet. We show that an ∼2 MJ planet, orbiting at 2.5 au in a disc with mass 0.047 M⊙ and radius 300 au, provides a good match both to the SED and to CO observations which constrain the velocity field in the disc. A range of planet masses is allowed by current data, but could in principle be distinguished with further observations between 3 and ∼20 μm. Future high-precision astrometric instruments should also be able to detect the motion of the central star caused by an orbiting Jupiter-mass planet. We argue that the small number of T Tauri stars with SEDs resembling that of GM Aur is broadly consistent with the expected statistics of embedded migrating planets.",

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doi = "10.1046/j.1365-8711.2003.06515.x",

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AU - Rice, W. K.M.

AU - Wood, Kenneth

AU - Armitage, P. J.

AU - Whitney, B. A.

AU - Bjorkman, J. E.

PY - 2003/6/11

Y1 - 2003/6/11

N2 - The unusual spectral energy distribution (SED) of the classical T Tauri star GM Aurigae provides evidence for the presence of an inner disc hole extending to several au. Using a combination of hydrodynamical simulations and Monte Carlo radiative transport, we investigate whether the observed SED is consistent with the inner hole being created and maintained by an orbiting planet. We show that an ∼2 MJ planet, orbiting at 2.5 au in a disc with mass 0.047 M⊙ and radius 300 au, provides a good match both to the SED and to CO observations which constrain the velocity field in the disc. A range of planet masses is allowed by current data, but could in principle be distinguished with further observations between 3 and ∼20 μm. Future high-precision astrometric instruments should also be able to detect the motion of the central star caused by an orbiting Jupiter-mass planet. We argue that the small number of T Tauri stars with SEDs resembling that of GM Aur is broadly consistent with the expected statistics of embedded migrating planets.

AB - The unusual spectral energy distribution (SED) of the classical T Tauri star GM Aurigae provides evidence for the presence of an inner disc hole extending to several au. Using a combination of hydrodynamical simulations and Monte Carlo radiative transport, we investigate whether the observed SED is consistent with the inner hole being created and maintained by an orbiting planet. We show that an ∼2 MJ planet, orbiting at 2.5 au in a disc with mass 0.047 M⊙ and radius 300 au, provides a good match both to the SED and to CO observations which constrain the velocity field in the disc. A range of planet masses is allowed by current data, but could in principle be distinguished with further observations between 3 and ∼20 μm. Future high-precision astrometric instruments should also be able to detect the motion of the central star caused by an orbiting Jupiter-mass planet. We argue that the small number of T Tauri stars with SEDs resembling that of GM Aur is broadly consistent with the expected statistics of embedded migrating planets.

KW - Accretion, accretion discs

KW - Dust, extinction

KW - Planetary systems: Protoplanetary discs

KW - Radiative transfer

KW - Scattering

KW - Stars: pre-main-sequence

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SN - 0035-8711

VL - 342

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JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 1

ER -

Constraints on a planetary origin for the gap in the protoplanetary disc of GM Aurigae

Abstract

Keywords

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