Spatially resolved observations of Europa's surface with Subaru/IRCS at 1.0-1.8 μ m: Upper limits to the abundances of hydrated Cl-bearing salts

Abstract

Recent infrared observations at 1.5-4.0 μ m using large ground-based telescopes have suggested that Cl-bearing salts are likely present on Europa's surface as non-ice materials. The chemical compositions of those Cl-bearing salts are key to understanding Europa's ocean chemistry and habitability. Here we report the results of ground-based telescope observations of Europa across two wavelength ranges, 1.0-1.5 and 1.5-1.8 μ m, of which the former range includes absorption features owing to some hydrated Cl-bearing salts. We obtained spatially resolved reflectance spectra using the Subaru Telescope/IRCS and the adaptive optics system AO188 with high wavelength resolutions (δ λ ~ 2 nm for 1.0-1.5 μ m and δ λ ~ 0.9 nm for 1.5-1.8 μ m) and low noise levels (1σ ~ 1-2 × 10-3). We found no clear absorption features at ~1.2 μm caused by hydrated Cl-bearing salts. We estimated that conservative upper limits to the abundances of MgCl2·nH2O, NaClO4·2H2O, Mg(ClO3)2·6H2O, and Mg(ClO4)2·6H2O on Europa are 17% (<10% for most) at the 3σ noise level. These values are lower than the proposed abundance of some hydrated Cl-bearing salts (> ~20%) on Europa based on previous observations. This supports the idea that Cl-bearing salts on Europa are likely anhydrous Na salts of NaCl and/or NaClO4, or hydrated NaCl·2H2O. The presence of Na salts suggests that Na+ could be the major cation in Europa's ocean, which would be possible if the oceanic pH is circumneutral or alkaline.