While NASA's planet-hunting Kepler space telescope, which discovered the newfound Earth-like planet candidate KOI 172.2, is great for finding large numbers of exoplanets, it is not our best bet for characterizing an Earth twin circling a distant star, researchers say.
In order to understand what an "alien Earth" candidate really looks like, it takes a more refined approach than what Kepler can provide at the moment.
"It’s a statistical mission," Kepler deputy science team lead Natalie Batalha said at the 221st meeting of the American Astronomical Society on Tuesday (Jan. 8).
The Kepler mission is designed to find out how many possible exoplanets there could be in any given part of the galaxy. The space telescope launched in 2009 and stares unblinking at a single patch of the sky to scan for dips in light from stars, a telltale sign of an orbiting planet passing in front of the star. Kepler's observations can tell scientists where a planet is in relation to its home star, but the spacecraft has little to add about important details such as an exoplanet's climate, researchers said. [Most Earth-like Exoplanet Discovery Explained (Infographic)]
But how can scientists study those important questions that need to be answered before a planet can be deemed a true Earth twin?
Finding Earth’s twin
The Kepler mission is a starting point in the search for a true Earth-like planet, Nicolas Cowen a postdoctoral fellow in astronomy at Northwestern University in Evanston, Ill. told SPACE.com. "Kepler just told us how big the telescope we have to build is."
There could be more than 17 billion Earth-sized planets in the Milky Way galaxy alone, but that doesn’t mean they’re easy to research once detected. Once planets of interest are confirmed by Kepler, then other instruments can be used to investigate the specifics of the planet.
A ground-based telescope could be just the right tool for finding Earth’s twins, said Cowen. If the exoplanet in question is near enough to the Earth and in exactly the right position, researchers could aim a 10-meter (33 foot) dish toward the planet to optically observe its transit between the Earth and its home star. After researchers have measured the radius of the planet, and if a telescope can make direct observations of the planet in question, Cowen said, then it is just a matter of patience.
Cowen added that all it takes after a researcher knows the size and rotation of the planet is as much observation time as possible. Watching the way a planet rotates and taking measurements of the different colors that come in and out of view as the planet orbits its star gives researchers a sense of what might lie under the surface of the atmosphere.
Water, land and clouds reflect light in different ways, and by directly observing those reflections, astronomers like Cowen can start to see how an exoplanet might be an Earth twin.
“That’s what would happen in an ideal world,” Cowen said.
Closer than we think?
Those days of "ideal" research might not be as far off as some believe. Cowen thinks that it could only be a matter of time before astronomers are able to peer into the atmosphere of an exoplanet and see what’s happening on the surface using a ground-based telescope.
In a presentation earlier this week, astronomer Ian Crossfield suggested that it’s likely that an Earth-size planet in the “habitable zone” of an M-dwarf star — a type of star smaller and dimmer than the sun, but plentiful in the Milky Way — will be found within 31 parsecs of Earth, a relatively short distance in astronomical terms.
“This is the first meeting where any of these ideas have even brought up,” Cowen said. “It’s very exciting.”
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