2016
DOI: 10.3847/0004-637x/828/2/113
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Alma Observations of the Debris Disk of Solar Analog Τ Ceti

Abstract: We present 1.3 mm observations of the Sun-like star τ Ceti with the Atacama Large Millimeter/submillimeter Array (ALMA) that probe angular scales of ∼ 1 ′′ (4 AU). This first interferometric image of the τ Ceti system, which hosts both a debris disk and possible multiplanet system, shows emission from a nearly face-on belt of cold dust with a position angle of 90• surrounding an unresolved central source at the stellar position. To characterize this emission structure, we fit parametric models to the millimete… Show more

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Cited by 57 publications
(21 citation statements)
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“…The analyses of radial-velocity data have not reached a consensus, but the two outer planets (the planets e and f) near its habitable zone are consistent between analyses. 37,38 A debris disk has been detected with far-infrared and radio observations, [39][40][41] with an inner edge at ∼6 AU, an outer edge at ∼50 AU, and an inclination of ∼35 deg. The knowledge motivates us to consider the following in the data challenge for τ Ceti.…”
Section: Astrophysical and Observational Scenariosmentioning
confidence: 99%
“…The analyses of radial-velocity data have not reached a consensus, but the two outer planets (the planets e and f) near its habitable zone are consistent between analyses. 37,38 A debris disk has been detected with far-infrared and radio observations, [39][40][41] with an inner edge at ∼6 AU, an outer edge at ∼50 AU, and an inclination of ∼35 deg. The knowledge motivates us to consider the following in the data challenge for τ Ceti.…”
Section: Astrophysical and Observational Scenariosmentioning
confidence: 99%
“…Cold debris disks around main sequence stars (e.g., Greaves et al 2004;Di Folco et al 2007; Lestrade et al 2012;Chavez-Dagostino et al 2016;MacGregor et al 2016) are left-over planetesimals that could not agglomerate into larger bodies during the process of planet formation. In these disks, dust grains are continuously replenished by dust particles resulting from grinding-down of larger planetesimals in destructive collisions (the so-called collisional cascade; Wyatt et al 2007a).…”
Section: Introductionmentioning
confidence: 99%
“…About a hundred debris disks have been spatially resolved to date, mostly in thermal emission at 70-160μm with the Herschel Space Observatory (e.g., Booth et al 2013;Eiroa et al 2013;Matthews et al 2014;Morales et al 2016;Vican et al 2016) or at submillimeter/millimeter wavelengths with JCMT (Holland et al 2017) and ALMA (e.g., MacGregor et al 2013, 2016aSu et al 2017). Using the measured radii of a sample of Herschel-resolved disks, Pawellek et al (2014) interestingly showed that the typical grain size in these disks does not directly scale with the radiative pressure blowout particle size, but decreases with stellar luminosity.…”
Section: Introductionmentioning
confidence: 99%