ALMA detection of acetone, disulfur monoxide, and carbon monoxide in the Jupiter volcanic moon Io

Abstract

The extremely thin atmosphere of Jupiter's volcanic moon Io primarily consists of sulfur (S), sodium (Na), and oxygen (O) molecules that are controlled by the combination of the sublimation and volcanic outgasses. We present the first spectroscopic detection of the two rotational emission lines of acetone (CH3COCH3) and a single emission line of disulfur monoxide (S2O), and carbon monoxide (CO) at frequency = 346.539, 346.667, 346.543, and 345.795 GHz respectively using the archival data of high-resolution Atacama Large Millimeter/Submillimeter Array (ALMA) interferometer with band 7 observation. All molecular species are detected with 5σ statistical significance. Jupiter's moon Io is the most volcanically active body in the solar system with a very thin and spatially variable atmosphere. The volcanic gas CH3COCH3, S2O, and CO are mainly coming from volcanic plumes. The statistical column density of CH3COCH3 line is N(CH3COCH3) = 3.18×1015 cm-2 but for the cases of S2O and CO, the column densities are N(S2O) = 2.63×1016 cm-2 and N(CO) = 5.27×1015 cm-2 respectively. The carbon monoxide gas is mainly formed by the photolysis of the volcanic gas acetone.