For the first time, astronomers have witnessed the real-time formation of a ring system. This particular ring encircles Chiron, a comet-like entity that orbits the sun between Saturn and Uranus. Each time you observe Chiron, its rings will appear slightly varied.

While Chiron is not the first small celestial body to display rings, it joins the ranks of the asteroid Chariklo and the dwarf planets Haumea and Quaor, which also possess small ring systems. These rings were identified using a technique called stellar occultation, where observations are made as an object passes in front of a distant star, allowing scientists to create a map of how that star’s light is obstructed by the surrounding material.

“Only about 20 objects have been observed through stellar occultations, so having four of them identified with rings represents a robust statistic,” says Bruno Sicardi from the Paris Observatory in France. “Given the countless bodies in existence, it stands to reason that hundreds of ring systems should be out there.” He anticipates that more will be discovered in the years ahead.

Sicardi and his team analyzed the 2023 occultation of a star to decode the structure of the ring surrounding Chiron. While earlier findings hinted at the existence of three rings, the new observations reveal an extra disk of material encircling those rings, extending farther from Chiron’s surface, along with an entirely new ring previously unseen.

“Nature presents us with rings in their developmental stages, which is a fortunate scenario for us. Unlike the rings of Saturn, Uranus, or even Chariklo, which generally stay consistent, we are witnessing something dynamic,” Sicardi remarks.

Rings can form through various processes, and observing their formation can deepen our understanding significantly. As Christian Pereira from the National Astronomical Observatory of Brazil notes, “[This could] unveil the specific conditions that facilitate the formation, persistence, and eventual disappearance of rings, which may ultimately elucidate why such systems are typically found only in the frigid, icy areas of the solar system.”