Europa.

Although this satellite is located deep in Jupiter's gravitation well, there are less than 20 surface features that could be impact craters. This fact, combined with a strong infrared spectral signature indicating the surface is covered with a fractured glacier field, has raised the expectation that signatures due to ongoing resurfacing processes can be detected. Spatially resolved ultraviolet observations should provide additional constraints for a model of these processes. FOS spectra of the trailing hemisphere of Europa were obtained on July 17, 1993. These data spanned 222-329 nm with 0.209 nm resolution and a signal-to-noise ratio ranging from 3.4 to 37 (far surpassing IUE observations). The albedo showed a marked discontinuity near 280 nm. Noll et al. (1994) question that this feature is due to sulfur-ion-irradiated ice and suggest it is absorption of solid SO on water ice. Based on the lack of detection of the OH A-X (0,0) band at 3090 , they set an upper limit on the column abundance of OH at 210 cm. This rate will constrain escape rates of HO and OH molecules that could be produced in Europa's resurfacing processes.