Mysterious ring that astronomers can’t explain caused by dwarf planet beyond Neptune
The ring is so far from the dwarf planet’s surface that its material should have coalesced into a moon. But somehow, it didn’t.
A mini-planet orbiting in the frigid outer reaches of the solar system has a Saturn-like ring of dust and debris that defies the rules of physics, a new study has revealed.
The planet in question is called Quaoar and it’s the seventh largest of the known dwarf planets of which Pluto is the king. Discovered in 2002 and about 697 miles wide (1,121 kilometers), Quaoar is one of the so-called trans-Neptunian objects, small planets orbiting beyond the solar system‘s outermost planet Neptune.
Residing in the Kuiper Belt, the doughnut-shaped ring of rocky and icy debris in the outer solar system, Quaoar is a proud owner of its own moon, the 100-mile-wide (160 km) Weywot. And a recent observation campaign revealed that it also has a ring of material in its orbit.
That by itself wouldn’t be so special. The gas giant Saturn is known to possess a whole series of rings. Jupiter, Neptune and Uranus also have some. One other trans-Neptunian object — Haumea — has been found to have a ring, and the space rock Chariklo that orbits between Saturn and Uranus also has one. So what exactly sets Quaoar’s ring apart?
Quaoar’s ring is at a very unusual distance from its parent body. In fact, before astronomers discovered Quaoar’s ring in observations from several telescopes conducted between 2018 and 2021, they had thought that it was impossible for a ring to exist at such a distance. With a radius of about 2,420 miles (3,885 km) from Quaoar’s center, the ring is too far away from the dwarf planet that its gravity should no longer be able to keep the material dispersed. Instead, it should coalesce under its own gravity and form another moon, just like Weywot. By not having done that, the ring has breached what astronomers call the Roche limit, the first known ring around a celestial body to have done so.
“What is so intriguing about this discovery around Quaoar is that the ring of material is much farther out than the Roche limit,” Giovanni Bruno, an astronomer at Italy’s National Institute for Astrophysics (INAF) and one of the authors of the paper, said in a European Space Agency (ESA) statement. “As a result of our observations, the classical notion that dense rings survive only inside the Roche limit of a planetary body must be thoroughly revised.”
The ring was discovered during a series of occultations, essentially eclipses, when Quaoar passed between Earth and several more distant but much brighter stars. When an occultation occurs, the light of the background star temporarily dims. The effect is only visible to very sensitive telescopes and is frequently used to detect exoplanets orbiting stars in our Milky Way galaxy, which is why ESA’s exoplanet hunter Cheops was among the telescopes watching these Quaoar occultations.
When astronomers analyzed the data, they realized that apart from the main dip in the background stars’ brightness, they could detect two smaller drops. Since drops occurred before and after the main occultation, respectively, the researchers thought that Quaoar must be surrounded with a ring.
Several Earth-based telescopes also observed the occultations with similar results, but Cheops’ data were particularly valuable as they proved that the odd dimmings were not caused by the effects of Earth’s atmosphere.
“The Cheops data are amazing for signal to noise,” Isabella Pagano, also of INAF and a member of the Cheops Board, said in the statement. “The signal to noise is a measure of how strong the detected signal is to the random noise in the system. Cheops gives a great signal to noise because the telescope is not looking through the distorting effects of Earth’s lower atmosphere.”
Now astronomers have to either rethink the Roche limit or come up with another explanation for the existence of Quaoar’s ring.
The study was published on Wednesday (Feb. 8) in the journal Nature.
This article was originally published by SpaceCom. Read the original article.
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