Artist's concept depicts Kepler-186f, the first validated Earth-size planet to orbit a distant star in the habitable zone. (Credit: NASA/Ames/SETI Institute/JPL-Caltech )

Kepler helps count Earth-like planets around sun-like stars

Scientists used data from the Kepler space telescope to better estimate the rate of Earth-like planets near stars similar to our sun.

Sam Sholtis-Penn State • futurity
Aug. 14, 2019 6 minSource

small yellow star at lower left and large Earth-like planet at right

A new study provides the most accurate estimate of the frequency that planets similar to Earth in size and in distance from their host star occur around stars similar to our sun.

Knowing the rate that these potentially habitable planets occur will be important for designing future astronomical missions to characterize nearby rocky planets around sun-like stars that could support life, researchers say.

NASA’s Kepler space telescope discovered thousands of planets from the time it first launched in 2009 to its retirement in 2018 when it exhausted its fuel supply. The telescope has also documented transit events to observe hundreds of thousands of stars and identify planets outside of our solar system—exoplanets.

Transits events occur when a planet’s orbit passes between its star and the telescope, blocking some of the star’s light so that it appears to dim. Measuring the amount of dimming and the duration between transits and using information about the star’s properties allows astronomers to characterize the size of the planet and the distance between the planet and its host star.

“Kepler discovered planets with a wide variety of sizes, compositions, and orbits,” says Eric B. Ford, professor of astronomy and astrophysics at Penn State and one of the leaders of the research team.

“We want to use those discoveries to improve our understanding of planet formation and to plan future missions to search for planets that might be habitable. However, simply counting exoplanets of a given size or orbital distance is misleading, since it’s much harder to find small planets far from their star than to find large planets close to their star.”

Simulated universes

To overcome that hurdle, the researchers designed a new method to infer the occurrence rate of planets across a wide range of sizes and orbital distances. The new model simulates ‘universes’ of stars and planets and then ‘observes’ these simulated universes to determine how many of the planets Kepler would have discovered in each “universe.”

“We used the final catalog of planets identified by Kepler and improved star properties from the European Space Agency’s Gaia spacecraft to build our simulations,” says graduate student Danley Hsu, first author of the paper in the Astronomical Journal.

“By comparing the results to the planets cataloged by Kepler, we characterized the rate of planets per star and how that depends on planet size and orbital distance. Our novel approach allowed the team to account for several effects that have not been included in previous studies.”

The results of the new study are particularly relevant for planning future space missions to characterize potentially Earth-like planets, researchers say. While the Kepler mission discovered thousands of small planets, most are so far away that it is difficult for astronomers to learn details about their composition and atmospheres.

“Scientists are particularly interested in searching for biomarkers—molecules indicative of life—in the atmospheres of roughly Earth-size planets that orbit in the ‘habitable-zone’ of sun-like stars,” Ford says.

“The habitable zone is a range of orbital distances at which the planets could support liquid water on their surfaces. Searching for evidence of life on Earth-size planets in the habitable zone of sun-like stars will require a large new space mission.”

Rare or common?

How large that mission needs to be will depend on the abundance of Earth-size planets. NASA and the National Academies of Science are currently exploring mission concepts that differ substantially in size and their capabilities.

If Earth-size planets are rare, then the nearest Earth-like planets are farther away and will require a large, ambitious mission to search for evidence of life on potentially Earth-like planets. On the other hand, if Earth-size planets are common, then there will be Earth-size exoplanets orbiting stars that are close to the sun and a relatively small observatory may be able to study their atmospheres.

“While most of the stars that Kepler observed are typically thousands of light years away from the sun, Kepler observed a large enough sample of stars that we can perform a rigorous statistical analysis to estimate of the rate of Earth-size planets in the habitable zone of nearby sun-like stars.” Hsu says.

Based on their simulations, the researchers estimate that planets very close to Earth in size, from three-quarters to one-and-a-half times the size of Earth, with orbital periods ranging from 237 to 500 days, occur around approximately one in four stars. Importantly, their model quantifies the uncertainty in that estimate.

They recommend that future planet-finding missions plan for a true rate that ranges from as low about one planet for every 33 stars to as high as nearly one planet for every two stars.

“Knowing how often we should expect to find planets of a given size and orbital period is extremely helpful for optimize surveys for exoplanets and the design of upcoming space missions to maximize their chance of success,” Ford says.

Additional coauthors are from Penn State and Brigham Young University. NASA, the National Science Foundation, and Penn State funded the work.

Source: Penn State

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