Predictions for a planet just inside Fomalhaut's eccentric ring
TLDR
In this paper, the eccentricity and sharpness of the edge of Fomalhaut's disk are due to a planet just interior to the ring edge, which is likely to be located at the boundary of a chaotic zone in the corotation region of the planet.Abstract:
We propose that the eccentricity and sharpness of the edge of Fomalhaut’s disk are due to a planet just interior to the ring edge. The collision timescale consistent with the disk opacity is long enough that spiral density waves cannot be driven near the planet. The ring edge is likely to be located at the boundary of a chaotic zone in the corotation region of the planet. We find that this zone can open a gap in a particle disk as long as the collision timescale exceeds the removal or ejection timescale in the zone. We use the slope measured from the ring edge surface brightness profile to place an upper limit on the planet mass. The removal timescale in the chaotic zone is used to estimate a lower limit. The ring edge has eccentricity caused by secular perturbations from the planet. These arguments imply that the planet has a mass between that of Neptune and that of Saturn, a semi-major axis of approximately 119 AU and longitude of periastron and eccentricity, 0.1, the same as that of the ring edge.read more
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FOMALHAUT b: INDEPENDENT ANALYSIS OF THE HUBBLE SPACE TELESCOPE PUBLIC ARCHIVE DATA
Raphael Galicher,Raphael Galicher,Raphael Galicher,Christian Marois,Barry Zuckerman,Bruce Macintosh +5 more
TL;DR: In this paper, the spectral energy distribution (SED) of Fomalhaut b cannot be explained as due to direct or scattered radiation from a massive planet, and the authors consider two models to explain the SED: (1) a large circumplanetary disk around an unseen planet and (2) the aftermath of a collision during the past 50-150 yr of two Kuiper-Belt-like objects of radii ~50 km.
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Direct imaging of exoplanets.
TL;DR: The results of direct imaging surveys obtained so far are presented, and what they already tell us about giant planet (GP) formation and evolution and the progress expected in direct imaging in the near future, thanks in particular to forthcoming planet imagers on 8–10 m class telescopes.
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Planetary chaotic zone clearing: destinations and timescales
Sarah J. Morrison,Renu Malhotra +1 more
TL;DR: In this article, the authors investigated the orbital evolution of chaotic particles in a planet's chaotic zone to determine their final destinations and their timescales of clearing, and found that the inner and outer boundaries of the annular zone in which chaotic particles are cleared are increasingly asymmetric about the planet's orbit for larger planet masses.
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The Northern arc of ε Eridani’s Debris Ring as seen by ALMA
Mark Booth,Mark Booth,William R. F. Dent,Andrés Jordán,Andrés Jordán,Jean-Francois Lestrade,Antonio Hales,Mark C. Wyatt,Simon Casassus,Steve Ertel,Jane Greaves,Grant M. Kennedy,Luca Matrà,Jean-Charles Augereau,Eric Villard +14 more
TL;DR: FONDECYT Postdoctoral Fellowship and European Union through ERC grant [279973] were used by as discussed by the authors for a postdoctoral research at the University of Chile.
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Direct imaging and spectroscopy of a young extrasolar kuiper belt in the nearest ob association
Thayne Currie,Carey M. Lisse,Marc J. Kuchner,Nikku Madhusudhan,Scott J. Kenyon,Christian Thalmann,Joseph C. Carson,John H. Debes +7 more
TL;DR: In this paper, the authors describe the discovery of a bright, young Kuiper belt-like debris disk around HD 115600, a ∼1.4-1.5 M{sub ⊙, ∼15 Myr old member of the Sco-Cen OB Association.
References
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TL;DR: In this paper, the presence of the central cavity, approximately the size of Neptune's orbit, was detected in the emission from Fomalhaut, beta Pictoris and Vega, which may be the signature of Earth-like planets.