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Illustration of Chiron\u2019s rings<\/p>\n
Dan Durda<\/p>\n<\/div>\n<\/figcaption><\/figure>\n<\/p>\n
For the first time, astronomers are watching a ring system form in real time. The rings in question encircle Chiron, a comet-like object that takes a path around the sun between the orbits of Saturn and Uranus. Every time we look at Chiron, its rings seem to be a little different.<\/p>\n
Chiron isn\u2019t the first small object we have observed rings around: the asteroid Chariklo and dwarf planets Haumea and Quaoar also have small ring systems. All of these rings were spotted through a method called stellar occultation, which involves waiting for the object to pass in front of a distant star and then creating a map of how the star\u2019s light is blocked by orbiting material.<\/p>\n
<\/p>\n \u201cThere are only maybe 20 objects that have been observed through stellar occultations, so observing four of them with rings is high statistics,\u201d says Bruno Sicardy at the Paris Observatory in France. \u201cThere are hundreds or thousands of bodies out there, so there must be hundreds of ring systems.\u201d He expects we will find many more in the coming years.<\/p>\n Sicardy and his colleagues examined a stellar occultation that occurred in 2023 to nail down the structure of the rings around Chiron. While previous observations revealed the probable presence of three rings, this new observation showed an additional disc of material enveloping those rings and extending further from Chiron\u2019s surface, plus another ring even further out that has never been seen before.<\/p>\n \u201cNature is showing us a ring in the formation stage, which is very lucky for us, because when we look at Saturn\u2019s rings or Uranus\u2019s rings, or even Chariklo\u2019s rings, they basically always stay the same,\u201d says Sicardy.<\/p>\n There are many different ways rings can form, but watching their formation as it progresses could help us understand them far more deeply than we do now. \u201c[This could] shed light on the specific conditions that allow the formation, persistence or dissipation of rings, and may ultimately explain why such systems are only found in the cold, icy regions of the solar system,\u201d says team member Chrystian Pereira at the National Observatory of Brazil.<\/p>\n Topics:<\/p>\n<\/section><\/div>\n