Two Promising Places to Live, 1,200 Light-Years From Earth - blog.sciencenatures

Monday, January 16, 2023

Two Promising Places to Live, 1,200 Light-Years From Earth

 

Astronomers said Thursday that they had found the most Earth-like worlds yet known in the outer cosmos, a pair of planets that appear capable of supporting life and that orbit a star 1,200 light-years from here, in the northern constellation Lyra.


They are the two outermost of five worlds circling a yellowish star slightly smaller and dimmer than our Sun, heretofore anonymous and now destined to be known in the cosmic history books as Kepler 62, after NASA’s Kepler spacecraft, which discovered them. These planets are roughly half again as large as Earth and are presumably balls of rock, perhaps covered by oceans with humid, cloudy skies, although that is at best a highly educated guess.

An artist’s impression of a sunrise on Kepler 62f. The two outer planets of the Kepler 62 system may lie in the habitable zone, where liquid water could exist on the surface.Credit…American Association for the Advancement of Science

Nobody will probably ever know if anything lives on these planets, and the odds are that humans will travel there only in their faster-than-light dreams, but the news has sent astronomers into heavenly raptures. William Borucki of NASA’s Ames Research Center, head of the Kepler project, described one of the new worlds as the best site for Life Out There yet found in Kepler’s four-years-and-counting search for other Earths. He treated his team to pizza and beer on his own dime to celebrate the find (this being the age of sequestration). “It’s a big deal,” he said.

Looming brightly in each other’s skies, the two planets circle their star at distances of 37 million and 65 million miles, about as far apart as Mercury and Venus in our solar system. Most significantly, their orbits place them both in the “Goldilocks” zone of lukewarm temperatures suitable for liquid water, the crucial ingredient for Life as We Know It.

Previous claims of Goldilocks planets with “just so” orbits snuggled up to red dwarf stars much dimmer and cooler than the Sun have had uncertainties in the size and mass and even the existence of these worlds, said David Charbonneau of the Harvard-Smithsonian Center for Astrophysics, an exoplanet hunter and member of the Kepler team.

“This is the first planet that ticks both boxes,” Dr. Charbonneau said, speaking of the outermost planet, Kepler 62f. “It’s the right size and the right temperature.” Kepler 62f is 40 percent bigger than Earth and smack in the middle of the habitable zone, with a 267-day year. In an interview, Mr. Borucki called it the best planet Kepler has found.

The Kepler 62 system resembles our own solar system, which also has two planets in the habitable zone: Earth — and Mars, which once had water and would still be habitable today if it were more massive and had been able to hang onto its primordial atmosphere.

The Kepler 62 planets continue a string of breakthroughs in the last two decades in which astronomers have gone from detecting the first known planets belonging to other stars, or exoplanets, broiling globs of gas bigger than Jupiter, to being able to discern smaller and smaller more moderate orbs — iceballs like Neptune and, now, bodies only a few times the mass of Earth, known technically as super-Earths. Size matters in planetary affairs because we can’t live under the crushing pressure of gas clouds on a world like Jupiter. Life as We Know It requires solid ground and liquid water — a gentle terrestrial environment, in other words.

The Kepler 62 planets continue a string of breakthroughs in the last two decades in which astronomers have gone from detecting the first known planets belonging to other stars, or exoplanets, broiling globs of gas bigger than Jupiter, to being able to discern smaller and smaller more moderate orbs — iceballs like Neptune and, now, bodies only a few times the mass of Earth, known technically as super-Earths. Size matters in planetary affairs because we can’t live under the crushing pressure of gas clouds on a world like Jupiter. Life as We Know It requires solid ground and liquid water — a gentle terrestrial environment, in other words.

Kepler 62’s newfound worlds are not quite small enough to be considered strict replicas of Earth, but the results have strengthened the already strong conviction among astronomers that the galaxy is littered with billions of Earth-size planets, perhaps as many as one per star, and that astronomers will soon find Earth 2.0, as they call it — our lost twin bathing in the rays of an alien sun.

“Kepler and other experiments are finding planets that remind us more and more of home,” said Geoffrey Marcy, a longtime exoplanet hunter at the University of California, Berkeley, and Kepler team member. “It’s an amazing moment in science. We haven’t found Earth 2.0 yet, but we can taste it, smell it, right there on our technological fingertips.”

A team of 60 authors, led by Mr. Borucki, reported the discovery of the Kepler 62 planets on Thursday in an article published online in the journal Science and at a news conference at Ames.

As if that weren’t enough, a group led by Thomas Barclay of Ames and the Bay Area Environmental Research Institute also reported the discovery of a planet 1.7 times as big as Earth hovering on the inner, warmer edge of the Goldilocks zone of Kepler 69, a star almost identical to the Sun, 2,700 light-years distant. At the news conference, Dr. Barclay described the planet as perhaps a “Super-Venus.” The group’s paper was published on Thursday in The Astrophysical Journal.

And in another paper submitted to The Astrophysical Journal, a group led by Lisa Kaltenegger of the Harvard-Smithsonian Center for Astrophysics and the Max Planck Institute for Astronomy, in Heidelberg, Germany, took the first stab at trying to model conditions on the Kepler 62 planets. That is a tough job because the system is too far away for astronomers to measure the masses of these planets, which would allow the densities and compositions of the planets to be pinned down, or to inspect and analyze their atmospheres with telescopes.

Scaling up from the properties of the Earth, Dr. Kaltenegger and her colleagues concluded that both of them were probably ocean worlds with humid, cloudy skies. Any life on them would probably be aquatic, she said, but “it might even be cooler life than we have here. Looking at the oceans, we find a lot of interesting life-forms there.”

Dr. Kaltenegger said she envisioned the pair as a kind of Darwinian test tube and wondered in an e-mail if life would evolve on both worlds and, if so, “Would life evolve ‘the same’ way or would there be very different life?”

“This is huge for the overall life-elsewhere question,” said Sara Seager, a planetary expert at the Massachusetts Institute of Technology who was not part of the work.

Alan Boss, a planetary expert at the Carnegie Institution of Washington and a member of the Kepler team, called the new results the capstone of the Kepler mission. “I would argue,” he said in an e-mail, “that if this was all that we learned from Kepler, that the cost of this mission was justified.”

Kepler, launched in March 2009, hunts planets by staring at 150,000 stars in a patch of Milky Way sky, monitoring their brightnesses and looking for blips caused when planets pass in front of their home stars. To date the spacecraft has identified 115 planets and has a list of 2,740 other candidates. (Over all, the world’s astronomers now know of almost 1,000 exoplanets.)

But Kepler, which had its mission extended for four years last spring, is only now coming into its prime. A minimum of three blips is required to register a planet, and so planets like the Earth that take a year to make an orbit are only now coming into view in the Kepler data. Indeed, the new Kepler 62 planets each registered just three transits, as they are called.But there is a hitch, Dr. Seager and others cautioned. Because the Kepler stars are all so far away — hundreds or thousands of light-years — and the planets we want to find are so small, astronomers will never be quite completely sure what any particular planet is made of or whether anything can or does live there.

In the case of Kepler 62, said Natalie Batalha of San Jose State University, a Kepler scientist, the astronomers had determined the composition of the new planets by comparison to three earlier objects that had similar sizes and turned out to be rocky.

“Mass by association,” Dr. Batalha called it in an e-mail.

Which is fine if all you want is the statistics of the cosmos. As Dr. Seager pointed out, “Kepler was not designed to tell us which planet to go live on, only how common Earth-like planets are.”

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