The result’s extremely variable interactions between the solar wind and Uranus’ magnetosphere, which may scatter auroral emissions throughout a lot of the planet.
Aurorae on Neptune: Sure.
This ice giant isn’t as tilted as Uranus, however Neptune’s magnetic subject can be offset, by about 50 levels. This results in variable auroral emissions much like these of Uranus. These aurorae are additionally anticipated to be sourced from Neptune’s icy moons, like Triton, and rings.
Aurorae exterior the solar system? Sure, and…
As you may anticipate, the solar system isn’t the one place that hosts aurorae. Astronomers have detected radio emissions from objects exterior the solar system that appear to be auroral emissions, too. The record contains extrasolar our bodies with very sturdy magnetic fields, comparable to brown dwarfs and purple dwarfs (together with the detection of auroral emissions from our second closest star, Proxima Centauri).
And in one other case, astronomers suppose they’ve detected radio emissions from aurorae on a large rogue planet that roams the Milky Way with no host star. As a result of this planet doesn’t orbit a star, researchers suppose it should host a moon that feeds it charged particles like Io does for Jupiter.
