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Observability of planet-disc interactions in CO kinematics

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arxiv 1806.05125 v1 pith:ME2R2SDJ submitted 2018-06-13 astro-ph.EP

Observability of planet-disc interactions in CO kinematics

classification astro-ph.EP
keywords planet-discplanetscircdeviationsgiantinteractionskinematiclarge-scale
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Empirical evidence of planets in gas-rich circumstellar discs is required to constrain giant planet formation theories. Here we study the kinematic patterns which arise from planet-disc interactions and their observability in CO rotational emission lines. We perform three-dimensional hydrodynamical simulations of single giant planets, and predict the emergent intensity field with radiative transfer. Pressure gradients at planet-carved gaps, spiral wakes and vortices bear strong kinematic counterparts. The iso-velocity contours in the CO(2-1) line centroids $v_\circ$ reveal large-scale perturbations, corresponding to abrupt transitions from below sub-Keplerian to super-Keplerian rotation along with radial and vertical flows. The increase in line optical depth at the edge of the gap also modulates $v_\circ$, but this is a mild effect compared to the dynamical imprint of the planet-disc interaction. The large-scale deviations from the Keplerian rotation thus allow the planets to be indirectly detected via the first moment maps of molecular gas tracers, at ALMA angular resolutions. The strength of these deviations depends on the mass of the perturber. This initial study paves the way to eventually determine the mass of the planet by comparison with more detailed models.

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Cited by 2 Pith papers

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  2. Substructures in Planet-Forming Disks with the SKAO

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    This review chapter discusses open questions on protoplanetary disk substructures and how SKA-Mid continuum observations at 12.5 GHz can help resolve them.