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Astronomy Now Rehearsing for more detailed spectroscopic exoplanet analyses

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Astronomy Now


An artist’s impression of the HR 8799 solar system. Image: W.M. Keck Observatory/Adam Makarenko/C.Alvarez

Using adaptive optics to offset atmospheric turbulence, astronomers at the W.M. Keck Observatory atop Maunakea, Hawaii, have confirmed the presence of water and a lack of methane in the atmosphere of a planet known as HR 8799c, a gas giant about seven times more massive than Jupiter that takes 200 years to complete one orbit of its host star.

Other researchers have made similar observations, but the Keck observations show the value of combining adaptive optics and high-resolution spectroscopy, the researchers say. The long-range goal is to enable technology needed to determine the chemical composition of exoplanet atmospheres and to detect possible biosignatures in the atmospheres of Earth-like planets.

“This type of technology is exactly what we want to use in the future to look for signs of life on an Earth-like planet,” said Dimitri Mawet, an associate professor of astronomy at Caltech and a research scientist at NASA’s Jet Propulsion Laboratory. “We aren’t there yet but we are marching ahead.”

HR 8799 is located about 130 light years from Earth in the constellation Pegasus. The star has about 1.5 times the mass of the Sun and nearly five times its luminosity. It has four known planets and is the only such multi-planet system to be directly imaged.

For the new study of HR 8799c, the Keck II telescope and the Near-Infrared Cryogenic Echelle Spectrograph, or NIRSPEC, in combination with Keck’s powerful adaptive optics system to smooth out atmospheric blurring.

The observations marked the first time the technique had been used to directly image an exoplanet in the L-band, that is, infrared light with a wavelength around 3.5 micrometres.


The HR 8799 planetary system some 130 light years away was the first featuring multiple exoplanets that astronomers were able to directly image. A new study has confirmed the presence of oxygen in the atmosphere of a planet dubbed HR 8799c. Image: NRC-HIA/C. Marois/W.M. Kick Observatory

“The L-band has gone largely overlooked before because the sky is brighter at this wavelength,” said Mawet. “If you were an alien with eyes tuned to the L-band, you’d see an extremely bright sky. It’s hard to see exoplanets through this veil.”

The use of adaptive optics made the L-band more accessible, allowing the researchers to make the most precise measurements yet of the atmospheric constituents of HR 8799c, confirming the presence of water as previously believed. They also were able to confirm the absence of methane.

Mawet and his colleagues are presently developing a new instrument called the Keck Planet Imager and Characteriser, or KPIC. It will also will utilise adaptive optics and high-resolution spectroscopy to study planets that are fainter than HR 8799c and orbit closer to their host stars.

“KPIC is a springboard to our future Thirty Meter Telescope instrument,” says Mawet. “For now, we are learning a great deal about the myriad ways in which planets in our universe form.”

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