Telescope sees 'baby planet' forming around distant star - Action News
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Science

Telescope sees 'baby planet' forming around distant star

Astronomers usingEuropean Southern Observatory's Very Large Telescope (VLT) have captured the birth of a planet around a star 520 light-years away.

'This is part of our origin,' says researcher

This image shows the inner region of the disc around the young AB Aurigae star, where European Southern Observatorys Very Large Telescope has spotted signs of a planet's birth. The twist (in very bright yellow) marks the spot where a planet may be forming. (Boccaletti et al/ESO)

Astronomers usingEuropean Southern Observatory's Very Large Telescope (VLT) have captured the birth of a planet around a star 520 light-years away.

The image might not look like much at first glance. But among the swirling clouds of dust and gas is a little twist. That twist,astronomers hypothesize, is evidence of aplanet forming as it rotates around its star.

The parent starof the developing planet is AB Aurigae, found in the constellation Auriga, a familiar constellation in the Northern Hemisphere. It is about one to five million years old, far younger than our 4.5 billion-year-old sun, and roughly four times more massive.

The spiral arms around the starwere first detected five years ago using ESO's Atacama Large Millimeter Array telescope in Chile,but it wasn't able to observe this much detail.Using a special instrument on theVLT called SPHERE, astronomers were ableto block out the star's bright light and conduct extremely precise observations.

This chart shows the location of the AB Aurigae system. This map shows most of the stars visible to the unaided eye under dark skies, and the system itself is marked with a red circle. (ESO, IAU and Sky & Telescope)

These types of spirals around young stars are indicative of newly forming planets and are created as these planets give the gas a "kick," which in turn creates a disturbance of the swirling disc and forms a wave. The twists observed are in a kind of s-shape as gas swirls around the planet.

We do not see the planetyet, but we do see the material that is forming the planet, and we do see the mechanism at play for the formation of the planet.- Emmanuel Di Folco, astronomer and paper's co-author

"These twists must be produced by a baby planet, which we don't see directly, but we see the influence of the planet onto the spiral,"said Emmanuel Di Folco, co-author of the paper published in the journal Astronomy & Astrophysicsand an astronomer at the Astrophysics Laboratory of BordeauxinBordeaux, France.

"We do not see the planetyet, but we do see the material that is forming the planet, and we do see the mechanism at play for the formation of the planet. And this was very exciting because the structure the shape of this structure that we have detected was exactly the shape that was predicted bytheoretical models of planet formation."

Astronomers hypothesizethat stars and planets form after they're given a different sort of kick, perhaps by a relatively nearby supernova explosion. Gas and dust first form the star and what remains forms the planets.

Origin story

While more than 4,000 exoplanets planets orbiting a distant star have been discovered, it's rare to see one so early on in its formation.

And Di Folco said that it's likely this planetmight have some company.

"In the [below] image on the right-hand panelthere is a small red dot, which we believe is also a planet, and what you're really seeing is that this planet is at the outer edge of what we call a cavity in this disc," Di Folco said.

The images of the AB Aurigae system showing the swirling disc around it. The image on the right is a zoomed-in version of the area marked by a red square on the image on the left. It shows the inner region of the disc, including the very bright yellow twist (circled in white) that scientists hypothesize marks the spot where a planet is forming. Astronomers also believe there may be other planets in the system. (Boccaletti et al/ESO)

The cavity is a region where there is much less gas and dust, potentially created by another planet. It's similar to the mechanism that creates gaps in Saturn's rings.

"There may be other planets somewhere hidden behind the structure that we see here that we will detect later on, but we cannot yet interpret all the structure of that we see."

The developing planet is roughly the same distance from its star as Neptune is from the sun, but it's not Earth-like.

"It's going to be a giant planet. It's not going to be a terrestrial planet," said Anthony Boccaletti, lead author andan astronomerat the Laboratory for Space Science and Astrophysical Instrumentation at the Paris Observatoryin Meudon, France. "It's really a massive one probably something like Jupiter or even more massive than Jupiter."

'That would be amazing'

The image of this nascent planetis yet another step in better understanding how planetary systems form, including our own.

"This is part of our origin," said Di Folco. "Here we have a snapshot of what could have been the formation of Neptune or or Saturn or Jupiterour giant planets in the solar system."

Di Folco said that they hope to conduct further observations, perhaps even capturing the suspected other planets in the system. But he's also hoping that in the not-too-distant future, astronomers will be able to capture animage of an even younger planet.

"We are coming into a new era in astronomywhere we'll be able really to see in a few yearsor maybe even 10 years from now the direct formation of those planets around young stars," Di Folco said.

"That would be amazing."