The infrared spectrum of Rhea

Abstract

A new infrared spectrum of the leading side of Rhea is presented in the 0.65- to 2.5 μm region with 1.5% spectral resolution and 3 to 5% data precision. Water ice absorptions previously identified at 2.02, 1.65, and 1.55 μm are confirmed and more precisely defined. The 1.25-μm water ice absorption is identified for the first time and the 1.04-μm water ice absorption is probably also present. The spectrum of the leading side of Rhea is very similar to the spectrum of the leading side of Ganymede in the 0.6- to 2.5-μm region. The Rhea spectrum is also very similar to laboratory spectra of water frost on ice blocks rather than that of an optically thick frost. The strong water ice absorption features, high albedo, and little downturn in reflectance toward shorter wavelengths from 0.6 to 0.4 μm all indicate a surface of nearly pure water ice. The surface of Rhea is probably at least 90 wt% water ice and may be as much as 98 wt%. Of the remaining constituents, neither minerals nor clathrathes can be excluded. If the surface of Rhea were a methane clathrate, the surface would still be about 90 wt% water ice.