SPHEREx Pre-Perihelion Mapping of H2O, CO2, and CO in Interstellar Object 3I/ATLAS
Abstract
From 01- to 15-Aug-2025UT, the SPHEREx spacecraft observed interstellar object 3I/ATLAS. Using R=40-130 spectrophotometry at λ=0.7-5 μm, light curves, spectra, and imaging of ATLAS were obtained. From these, robust detections of water gas emission at 2.7-2.8 μm and CO2 gas at 4.23-4.27 μm plus tentative detections of 13CO2 and CO gas were found. A slightly extended H2O coma was detected, and a huge CO2 atmosphere of extending out to at least 4.2 × 105 km was discovered. Gas production rates and 1σ errors for H2O, 12CO2, 13CO2, and CO were Qgas = 3.2 × 1026 20\%, 1.6 × 1027 10\%, 1.3 × 1025 25\%, and 1.0 × 1026 25\%, respectively. Co-addition of all λ = 1.0-1.5 μm scattered light continuum images from produced a high SNR image consistent with an unresolved source. The scattered light lightcurve showed 15\% variability over the observation period. The absolute brightness of ATLAS at 1.0-1.5 μm is consistent with a < 2.5 km radius nucleus surrounded by a 100 times brighter coma. The 1.5-4.0 μm continuum structure shows a strong feature commensurate with water ice absorption seen in KBOs and distant comets. The observed cometary behavior of ATLAS, including its preponderance of CO2 emission, lack of CO output, small size, and predominance of large icy chunks of material in a flux-dominant coma is similar to the behavior of short period comet 103P/Hartley 2, the ''hyperactive comet'' flyby target of the NASA Deep Impact extended mission in 2010. This correspondence suggests that ISOs can be significantly thermally processed before ejection into the ISM, and by comparison to 1I and 2I, can be widely variable in their physical outcome.
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