Dust in the Photospheric Environment II. Effect on the Near Infrared Spectra of L and T Dwarfs

Abstract

We report an attempt to interpret the spectra of L and T dwarfs with the use of the Unified Cloudy Model (UCM). For this purpose, we extend the grid of the UCMs to the cases of log g = 4.5 and 5.5. The dust column density relative to the gas column density in the observable photosphere is larger at the higher gravities, and molecular line intensity is generally smaller at the higher gravities. The overall spectral energy distributions (SEDs) are fJ < fH < fK in middle and late L dwarfs, fJ < fH > fK in early T dwarfs (L/T transition objects), and finally fJ > fH > fK in middle and late T dwarfs, where fJ, fH, and fK are the peak fluxes at J, H, and K bands, respectively, in fnu unit. This tendency is the opposite to what is expected for the temperature effect, but can be accounted for as the effect of thin dust clouds formed deep in the photosphere together with the effect of the gaseous opacities including H2 (CIA), H2O, CH4, and K I. Although the UCMs are semi-empirical models based on a simple assumption that thin dust clouds form in the region of Tcr < T < Tcond (Tcr = 1800K is an only empirical parameter while Tcond about 2000K is fixed by the thermodynamical data), the major observations including the overall SEDs as well as the strengths of the major spectral features are consistently accounted for throughout L and T dwarfs. In view of the formidable complexities of the cloud formation, we hope that our UCM can be of some use as a guide for future modelings of the ultracool dwarfs as well as for interpretation of observed data of L and T dwarfs.

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