Rings of Jupiter

The rings of Jupiter are a system of faint planetary rings. They were the third ring system found in the Solar System, after the rings of Saturn and Uranus.

The main ring was discovered in 1979 by the Voyager 1 spacecraft and studied later by the Galileo orbiter. We have also seen the rings using the Hubble Space Telescope and large telescopes on Earth.

Jupiter's rings are made mostly of dust and have four main parts: a thick inner "halo ring," a very thin "main ring," and two wide, faint outer rings named after the moons Amalthea and Thebe. The dust comes from moons like Metis and Adrastea, created when objects hit them at high speeds.

The rings look reddish, except the halo ring, which looks blue or neutral. The dust particles are tiny, about 15 μm across. Scientists think the rings may have been around since Jupiter formed.

There might also be a small ring near the moon Himalia. One idea is that a tiny moon crashed into Himalia and sent material into space to form this ring.

Discovery and structure

Jupiter's rings were the third set of rings found in the Solar System, after the rings of Saturn and Uranus. We first saw them on March 4, 1979, using the Voyager 1 space probe. The rings have four main parts: a thick inner part called the "halo ring," a very thin and bright "main ring," and two wide, faint outer rings named after the moons Amalthea and Thebe. These moons help create the rings.

In 2022, computer studies showed that Jupiter's rings are smaller than Saturn's because of special patterns made by the Galilean satellites.

Name	Radius (km)	Width (km)	Thickness (km)	Optical depth (in τ)	Dust fraction	Mass, kg
Halo ring	92,000–122,500	30,500	12,500	~1 × 10⁻⁶	100%	—
Main ring	122,500–129,000	6,500	30–300	5.9 × 10⁻⁶	~25%	10⁷– 10⁹ (dust) 10¹¹– 10¹⁶ (large particles)
Amalthea gossamer ring	129,000–182,000	53,000	2,000	~1 × 10⁻⁷	100%	10⁷– 10⁹
Thebe gossamer ring	129,000–226,000	97,000	8,400	~3 × 10⁻⁸	100%	10⁷– 10⁹

Main ring

The main ring of Jupiter is the brightest part of its ring system. It stretches from about 122,500 kilometers to 129,000 kilometers from Jupiter. This ring was discovered in 1979 by the Voyager 1 space probe and studied later by the Galileo orbiter.

The ring looks different depending on how we view it. In some lights, it appears thin and faint, while in other lights it looks thicker. Scientists think the ring is made of tiny particles and larger pieces, which is why it changes shape in different lights.

Halo ring

The halo ring is the closest and thickest ring around Jupiter. It starts about 122,500 kilometers from the center of the planet and gets thicker as it moves closer to Jupiter. Scientists think it extends up to 10,000 kilometers above and below the main ring plane. The inner edge of the halo is sharp, beginning at about 100,000 kilometers from Jupiter's center.

This ring looks brightest when light bounces straight back to the observer. It was studied by the Galileo spacecraft. Though it is fainter than Jupiter's main ring when viewed from the side, it can appear just as bright because it is so thick. The halo ring looks the same whether viewed from the front or the back, but it is generally dimmer from the back. Its color is not red like the main ring and might even appear slightly blue.

Scientists believe the halo ring is made mostly of very tiny dust particles. These tiny particles scatter light in a way that makes the ring appear brighter from the front and bluer in color. The dust in the halo likely comes from the main ring. The halo's large thickness is thought to be caused by the magnetic field of Jupiter affecting the paths of these dust particles.

Gossamer rings

Amalthea gossamer ring

The Amalthea gossamer ring is a very faint ring. It stretches from the orbit of Amalthea at 182,000 km to about 129,000 km from Jupiter. It is brightest near its top and bottom edges and gets brighter as it moves closer to Jupiter. In 2002–2003, the Galileo spacecraft passed through these rings and detected tiny dust particles.

Thebe gossamer ring

The Thebe gossamer ring is the faintest ring around Jupiter. It stretches from the orbit of Thebe at 226,000 km to about 129,000 km from Jupiter. Like the Amalthea ring, it is brightest near its edges and gets brighter toward Jupiter. The Galileo spacecraft also detected dust particles here, similar to those in the Amalthea ring.

Himalia ring

In September 2006, NASA's New Horizons mission to Pluto passed by Jupiter for extra speed. During this flyby, it took pictures of what looked like a very thin, unknown ring near the path of a small moon called Himalia. Scientists think this ring might be pieces from a tiny, unseen moon that crashed into Himalia. This means Jupiter may still be getting and losing very small moons through collisions.

Exploration

The rings around Jupiter were first found when the Pioneer 11 spacecraft studied the planet in 1975. In 1979, the Voyager 1 and Voyager 2 spacecraft took pictures to help us learn about the rings. The Galileo orbiter, which flew from 1995 to 2003, took clearer pictures. Ground telescopes like the Keck and the HST also studied the rings. In 2007, the New Horizons spacecraft sent us more details. The Cassini spacecraft saw Jupiter's rings in 2000 when it flew by on its way to Saturn. Future missions will help us learn even more.

Rings of Jupiter

Rings of Jupiter

Discovery and structure

Main ring

Halo ring

Gossamer rings

Amalthea gossamer ring

Thebe gossamer ring

Himalia ring

Exploration

Images

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