High resolution spectroscopy of Pluto's atmosphere: detection of the 2.3 μm CH4 bands and evidence for carbon monoxide

Abstract

The goal is to determine the composition of Pluto's atmosphere and to constrain the nature of surface-atmosphere interactions. We perform high--resolution spectroscopic observations in the 2.33--2.36 μm range, using CRIRES at the VLT. We obtain (i) the first detection of gaseous methane in this spectral range, through lines of the 3 + 4 and 1 + 4 bands (ii) strong evidence (6-σ confidence) for gaseous CO in Pluto. For an isothermal atmosphere at 90 K, the CH4 and CO column densities are 0.75 and 0.07 cm-am, within factors of 2 and 3, respectively. Using a physically--based thermal structure model of Pluto's atmosphere also satisfying constraints from stellar occultations, we infer CH4 and CO mixing ratios qCH4= 0.6+0.6-0.3% (consistent with results from the 1.66 μm range) and qCO = 0.5+1-0.25×10-3. The CO atmospheric abundance is consistent with its surface abundance. As for Triton, it is probably controlled by a thin, CO-rich, detailed balancing layer resulting from seasonal transport and/or atmospheric escape.