JWST Sees Alien Asteroid Belt around Nearby Star

JWST Sees Alien Asteroid Belt around Nearby Star

This image of the dusty debris disk surrounding the young star Fomalhaut is from Webb’s Mid-Infrared Instrument (MIRI). It reveals three nested belts extending out to 14 billion miles (23 billion kilometers) from the star. The inner belts – which had never been seen before – were revealed by Webb for the first time. Credit: NASA, ESA, CSA, A. Gáspár (University of Arizona). Image processing: A. Pagan (STScI)

The first asteroid belt ever found outside the solar system is more complex than expected, new observations by the James Webb Space Telescope (JWST) reveal.

Astronomers usedJWSTto examine the dusty ring system aroundFomalhauta young, hot star that lies about 25 light-years from Earth and is visible with the naked eye in the constellation Piscis Austrinu, the Southern Fish.

Fomalhaut’s ring system consists of three nested belts that extend out for around 14.3 billion miles (23 million kilometers) — about 150 times the distance between Earth and the sun. The rings are more complex than either theKuiper Belta ring of frigid bodies beyondNeptuneor the main asteroid belt, which sits between Jupiter and Mars, the new JWST observations show.

Astronomers discovered a dusty structure surrounding Fomalhaut in 1983 using NASA’s Infrared Astronomical Satellite. Yet the two inner belts of this system had never been sighted before this observation with the JWST.

The dust belts around the young star are thought to be debris from collisions between larger bodies likeasteroidsand comets, and are therefore referred to as “debris disks.” These disks are different thanprotoplanetary diskswhich hold material that later gloms together to form planets. Debris disks form later, after planets are in place.

“I would describe Fomalhaut as the archetype of debris disks found elsewhere in our galaxy, because it has components similar to those we have in our own planetary system,” András Gáspár of the University of Arizona, the lead author of a study announcing the new results,said in a statement.

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“By looking at the patterns in these rings, we can actually start to make a little sketch of what a planetary system ought to look like —  if we could actually take a deep enough picture to see the suspected planets,” Gáspár added.

Fomalhaut’s outermost belt, which is twice as large as the Kuiper Belt, has been imaged previously by theHubble Space Telescopethe Herschel Space Observatory and the ground-based Atacama Large Millimeter/submillimeter Array (ALMA). None of those instruments were able to see the interior structure within the outer belt, however.

“Where the JWST really excels is that we’re able to physically resolve the thermal glow from dust in those inner regions. So you can see inner belts that we could never see before,” study team member Schuyler Wolff, also of the University of Arizona, said in the same statement.

Going forward, astronomers hope to image debris disks like Fomalhaut’s around other stars using JWST.

“With Hubble andALMAwe were able to image a bunch of Kuiper Belt analogs, and we’ve learned loads about how outer disks form and evolve,” Wolff continued. “But we need the JWST to allow us to image a dozen or so asteroid belts elsewhere. We can learn just as much about the inner warm regions of these discs as Hubble and ALMA taught us about the colder outer regions.”

Just like Jupiter dominates the mainasteroid beltand Neptune sculpts the Kuiper Belt, astronomers believe that debris disks outside the solar system may be shaped by unseen planets. That means there may well be a planet or two lurking in the rings around Fomalhaut.

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“We definitely didn’t expect the more complex structure with the second intermediate belt and then the broader asteroid belt,” Wolff said. “That structure is very exciting, because any time an astronomer sees a gap and rings in a disk, they say, ‘There could be an embedded planet shaping the rings!'”

One feature already spotted by JWST in the rings may indicate the presence of forming protoplanets. The team saw what Gáspár labeled “the great dust cloud,” which may point to a collision in the outer ring of Fomalhaut between two “under construction” infant planets. This feature could therefore be an expanding cloud of very fine dust particles from two icy bodies that smashed into each other.

A similar feature was spotted in the same ring by Hubble back in 2008. It had dissipated by the time the space telescope reexamined the ring system in 2014, researchers said.

Deeper investigations of more systems like Fomalhaut with JWST could reveal how planets move through these pancake-flat disks. Observing the dust cloud itself, meanwhile, could reveal details about the structure of planetary systems other than our own. This includes discovering what their asteroids — which are much too small to see even with powerful instruments like JWST or Hubble — are like, and if they are similar to the space rocks that swirl around our star and its planets.

The team’s research was published online Monday (May 8) in the journalNature Astronomy.

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    Robert Lea is a science journalist in the U.K. whose articles have been published in Physics World, New Scientist, Astronomy Magazine, All About Space, Newsweek and ZME Science. He also writes about science communication for Elsevier and the European Journal of Physics. Rob holds a bachelor of science degree in physics and astronomy from the U.K.’s Open University. Follow him on Twitter @sciencef1rst.

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