English

A kinematically detected planet candidate in a transition disk

Earth and Planetary Astrophysics 2023-02-01 v2

Abstract

Transition disks are protoplanetary disks with inner cavities possibly cleared by massive companions, which makes them prime targets to observe at high resolution to map their velocity structure. We present ALMA Band 6 dust and gas observations of the transition disk around RXJ1604.3-2130 A, known to feature nearly symmetric shadows in scattered light. We studied the 12^{12}CO line channel maps and moment maps of the line of sight velocity and peak intensity. We fitted a Keplerian model of the channel-by-channel emission to study line profile differences and produced deprojected radial profiles for all velocity components. The 12^{12}CO emission shows a cavity inwards of \sim56 au and within the dust continuum ring at 81 au. The azimuthal brightness variations in the 12^{12}CO line and dust continuum are broadly aligned with the shadows detected in scattered-light observations. We find a strong localized non-Keplerian feature toward the west within the continuum ring (at R=41±10R=41\pm 10 au and PA=280±2PA=280\pm 2 ^\circ). A tightly wound spiral is also detected which extends over 300^\circ in azimuth, possibly connected to the localized non-Keplerian feature. Finally, a bending of the iso-velocity contours within the gas cavity indicates a highly perturbed inner region, possibly related to the presence of a misaligned inner disk. While broadly aligned with the scattered-light shadows, the localized non-Keplerian feature cannot be solely due to changes in temperature. Instead, we interpret the kinematical feature as tracing a massive companion located at the edge of the dust continuum ring. We speculate that the spiral is caused by buoyancy resonances driven by planet-disk interactions. However, this potential planet at \sim41 au cannot explain the gas-depleted cavity, the low accretion rate, and the misaligned inner disk, which suggests the presence of another companion closer in.

Keywords

Cite

@article{arxiv.2301.01684,
  title  = {A kinematically detected planet candidate in a transition disk},
  author = {Jochen Stadler and Myriam Benisty and Andrés F. Izquierdo and Stefano Facchini and Richard Teague and Nicolas Kurtovic and Paola Pinilla and Jaehan Bae and Megan Ansdell and Ryan Loomis and Satoshi Mayama and Laura M. Pérez and Leonardo Testi},
  journal= {arXiv preprint arXiv:2301.01684},
  year   = {2023}
}

Comments

13 pages, 14 figures. To be published in Astronomy & Astrophysics Letters

R2 v1 2026-06-28T08:02:43.243Z