Scientists used the spacecraft's Jovian InfraRed Auroral Mapper (JIRAM), which is able to capture light from deep inside Jupiter regardless of the time of day, to create this video. It is able to penetrate 30 to 45 miles below the planet's cloud tops. Thanks to Juno and its instruments, scientists are finally uncovering the secrets behind the forces that power Jupiter's magnetic field.

One such mystery is irregularities within the planet's magnetic field intensity. Specifically, Jupiter's magnetic field is intense and positive halfway between the north pole and the equator, but is flanked by less intense areas that are negative. In the southern hemisphere, the magnetic field is fully negative. Scientists would expect the planet's magnetic field to be fairly fluid and uniform, but it turns out it's more complicated than that.

"We're finding that Jupiter's magnetic field is unlike anything previously imagined," said Jack Connerney of the Space Research Corporation. "Juno's investigations of the magnetic environment at Jupiter represent the beginning of a new era in the studies of planetary dynamos."