The newly-detected ring orbits at 7.4 radii from Quaoar — much further away from the object than the rings around Saturn.
Quaoar is a trans-Neptunian object about 1,100 km (690 miles) in diameter.
Like the dwarf planet Pluto, this object dwells in the Kuiper Belt, an icy debris field of comet-like bodies.
It orbits at 45.1-45.6 astronomical units (AU) from the Sun and has an orbital period of 284.5 years.
Quaoar was discovered on June 4, 2002 by California Institute of Technology astronomers Michael Brown and Chadwick Trujillo using images from the Palomar telescope.
Also known as 2002 LM60, it has one known moon, Weywot, that orbits at 24 Quaoar radii.
Discovered on February 22, 2007, Weywot has a diameter of about 80 km (50 miles).
“Planetary rings are observed not only around giant planets, but also around small bodies such as the Centaur Chariklo and the dwarf planet Haumea,” said University of Sheffield’s Professor Vik Dhillon and colleagues.
“Up to now, all known dense rings were located close enough to their parent bodies.”
“What makes the ring system around Quaoar remarkable is that it lies at a distance of over seven planetary radii — twice as far out as what was previously thought to be the maximum radius according to the so-called Roche limit, which is the outer limit of where ring systems were thought to be able to survive.”
“For comparison, the main rings around Saturn lie within three planetary radii.”
“This discovery has therefore forced a rethink on theories of ring formation.”
The discovery was made using ESA’s space-based telescope Cheops and a collection of ground-based instruments, including the high-speed camera HiPERCAM on the 10.4-m diameter Gran Telescopio Canarias on La Palma.
The ring is too small and faint to see directly in an image. Instead, the astronomers made their discovery by observing a stellar occultation, when the light from a background star was blocked by Quaoar as it orbits the Sun.
The…
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