At distances of more than about 20 times the radius of Jupiter, the magnetic field becomes flattened.
On the sunward side of the planet, the magnetosphere is blunted by the solar wind. The size of the outer magnetosphere varies depending on the intensity of the solar wind.

Noisy Jupiter

The three distinct bands of radio emission from Jupiter are shown here. The very high frequency -- wavelengths shorter than 3 centimeters (1.2 inches) - or thermal radiation, indicates a temperature of about -140 degrees Celsius (-255 Fahrenheit) for Jupiter. This radiation is produced by the motion of molecules in Jupiter's atmosphere.

Decimetric radiation, with wavelengths between 3 centimeters (1.2 inches) and 3 meters (10 feet), is produced by the motion of electrons in a magnetic field. Radio noise from Jupiter gave the first indication that the planet has a large magnetic field.

Radio Bursts From Io

Some of Jupiter's decametric radiation, with wavelengths longer than 3 meters (10 feet), appears to be related to the Jovian satellite Io. As Io passes through Jupiter's magnetic field, it may become electrically charged, negative on one side and positive on the other. This can produce a potential of 400,000 volts accross the satellite.

When Io reaches certain positions, an electric current of 5 million amps may flow between Jupiter's ionosphere and Io, which would produce the tremendous radio bursts.