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Science

Planet birth image captured by astronomers

Astronomers have captured the first direct image of a planet being born.
A new planet forming around a star is depicted in an artist's impression from the University of Hawaii. The planet LkCa 15 b is 450 light years away from Earth and is being built by dust and gas. (Karen L. Teramura/University of Hawaii Institute for Astronomy/Associated Press)

Astronomers have captured the first direct image of a planet being born.

Adam Kraus, of the University of Hawaii's Institute for Astronomy, said the planet is being formed out of dust and gas circling a two-million-year-old star about 450 light years from Earth.

The planet itself, based on scientific models of how planets form, is estimated to have started taking shape about 50,000 to 100,000 years ago.

The scientists sayLkCa 15 b is the youngest planet ever observed. The previous record holder was about five times older.

Kraus and his colleague, Michael Ireland from Macquarie University and the Australian Astronomical Observatory, used Keck telescopes on Mauna Kea to find the planet.

"We're catching this object at the perfect time. We see this young star, it has a disc around it that planets are probably forming out of and we see something right in the middle of a gap in the disc," Kraus said in a telephone interview.

Kraus presented the discovery Wednesday at NASA's Goddard Space Flight Center in Maryland. Kraus and Ireland's research paper on the discovery is due to appear in the Astrophysical Journal.

Observing planets while they're forming can help scientists answer questions like whether planets form early in the life of a star or later, and whether they form relatively close to stars or farther away.

Planets can change orbits after forming, so it's difficult to answer such questions by studying older planets.

"These very basic questions of when and where are best answered when you can actually see the planet forming, as the process is happening right now," Kraus said.

Other planets may also be forming around the same star. Kraus said he'll continue to observe the star and hopes tosee other planets if there are in fact more.

Glare removal

Scientists hadn't been able to see such young planets before because the bright light of the stars they're orbiting outshines them.

Kraus and Ireland used two techniques to overcome this obstacle.

One method, which is also used by other astronomers, was to change the shape of their mirror to remove light distortions created by the Earth's atmosphere.

The other, unique method they used was to put masks over most of the telescope mirror. The combination of these two techniques allowed the astronomers to obtain high-resolution images that let them see the faint planet next to the bright star.

The astronomers found the planet while surveying 150 young dusty stars. This led to a more concentrated study of a dozen stars.

The star LkCa 15the planet is named after its starwas the team's second target. They immediately knew they were seeing something new, so they gathered more data on the star a year later.

In February, Nuria Huelamo of the European Space Agency'sLaboratory for Space Astrophysics and Theoretical Physics in Madrid and Johan Olofsson from Germany's Max Planck Institute for Astronomy andtheir colleagues announced that they believed they hadwitnessed the birth of a planet or brown dwarf(an object larger than a planet and smaller than a star) near a star called T Chausing the European Southern Observatory's Very Large Telescope. Theytoo found a gap in the disk of dust around a young star and reportedthe "signature" of an object located within the gap. However, they were unable to confirm whether the object was a planet or a brown dwarf.

Huelamo said that was because the object was more massive, and it was impossible to reconstruct the image from the T Cha data as Kraus and his colleagues did with LkCa 15 b.

Kraus told CBC News in an email that during the observations of LkCa 15 b, "we can actually see gas and dust that appear to be falling onto the newly formed planet. This shows not just that it is newly formed, but also that the assembly process continues today," he said. "The proposed object around T Cha doesn't have anything like this."

He added thatT Chais 8 million to 10 million years old or four or five times the age of LkCa: "We therefore have caught this planet at a much earlier stage than whatever is happening around T Cha."

Image of the planetary disk (left) zoomed in to show the newborn planet (right) from the scientific paper. An AU or astronomical unit is the distance between the Earth and the sun. (Adam Kraus/University of Hawaii; Michael Ireland/Macquarie University)

With files from Emily Chung, CBC News