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2016MNRAS.460L..10B - Mon. Not. R. Astron. Soc., 460, L10-L14 (2016/July-3)

Resolving the planetesimal belt of HR 8799 with ALMA.

BOOTH M., JORDAN A., CASASSUS S., HALES A.S., DENT W.R.F., FARAMAZ V., MATRA L., BARKATS D., BRAHM R. and CUADRA J.

Abstract (from CDS):

The star HR 8799 hosts one of the largest known debris discs and at least four giant planets. Previous observations have found evidence for a warm belt within the orbits of the planets, a cold planetesimal belt beyond their orbits and a halo of small grains. With the infrared data, it is hard to distinguish the planetesimal belt emission from that of the grains in the halo. With this in mind, the system has been observed with ALMA in band 6 (1.34 mm) using a compact array format. These observations allow the inner edge of the planetesimal belt to be resolved for the first time. A radial distribution of dust grains is fitted to the data using an MCMC method. The disc is best fitted by a broad ring between 145^{+12}_{-12} au and 429^{+37}_{-32} au at an inclination of 40{+5}{-6}{^○} and a position angle of 51{+8}{-8}{^○}. A disc edge at ∼145 au is too far out to be explained simply by interactions with planet b, requiring either a more complicated dynamical history or an extra planet beyond the orbit of planet b.

Abstract Copyright: © 2016 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society

Journal keyword(s): circumstellar matter - stars: individual: HR 8799 - planetary systems - submillimetre: planetary systems - submillimetre: stars - submillimetre: stars

Simbad objects: 5

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2019.10.21-13:09:09

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