But Canup says that the rings would be more of a rocky-ice mix if a small moon was pulverized. In fact the rings are almost purely water ice. The merely ten percent rocky composition of the rings probably came from micrometeorites that dusted the icy rings over billions of years.
Another popular thought was that a wayward comet got caught in Saturn's gravitational Cuisinart. But Jupiter, Uranus, and Neptune should have icy rings too. Instead, they all have dark rings fed by dust being blown off their moons by meteorites.
The hypothetical doomed moon would have been at least as large as Saturn's giant moon Titan, which is so big and meteorologically/geologically complex it has been dubbed "Earth II."
The doomed primeval moon would have spiraled in toward Saturn due to drag in a vast gaseous disk that accompanied satellite formation around the gas giant. Think of it as a small-scale version of the huge circumstellar disk that encircled our sun to form the planets. Hubble Space Telescope observations of a young gas giant planet orbiting the star Fomalhaut suggest it is unusually bright because it is surrounded by a large gas disk.