High-resolution Imaging of the Dust Disk around 49 Ceti

Subarcsecond scale Keck images of the youngA1V star, 49 Ceti, resolve emission at k 1⁄4 12:5 and 17.9 m from a disk with long axis at position angle (P.A.) 125 10 and inclination 1⁄4 60 15 . At 17.9 m, the emission is brighter andmore extended toward the northwest (NW) than the southeast (SE).Modeling of themid-infrared images combined with flux densities from the literature indicate that the bulk of the mid-infrared emission comes from very small grains (a 0:1 m) confined between 30 and 60 AU from the star. This population of dust grains contributes negligibly to the significant excess observed in the spectral energy distribution.Most of the nonphotospheric energy is radiated at longer wavelengths by an outer disk of larger grains (a 15 m), inner radius 60 AU, and outer radius 900 AU. Global properties of the 49 Cet disk showmore affinity with the Pic and HR 4796A disks than with other debris disks. This may be because they are all very young (t < 20Myr), adding strength to the argument that they are transitional objects between Herbig Ae and ‘‘Vega-like’’ A stars with more tenuous circumstellar disks. Subject headinggs: circumstellar matter — infrared: stars — planetary systems: formation — planetary systems: protoplanetary disks — solar system: formation — stars: individual (49 Ceti)