Search
Menu
DataRay Inc. - ISO 11146-Compliant Laser Beam Profilers

Exoplanet's Spectrum Revealed

Facebook X LinkedIn Email
MUNICH, Germany, Jan. 13, 2010 – By studying a triple planetary system that resembles a scaled-up version of our own sun's family of planets, astronomers have been able to obtain the first direct spectrum of a planet orbiting a distant star, thus bringing new insights into the planet's formation and composition. The result represents a milestone in the search for life elsewhere in the universe.

"The spectrum of a planet is like a fingerprint. It provides key information about the chemical elements in the planet's atmosphere," said Markus Janson, lead author of a paper reporting the new findings. "With this information, we can better understand how the planet formed and, in the future, we might even be able to find tell-tale signs of the presence of life."

Spectrum.jpg
The spectrum is that of a giant exoplanet, orbiting around the bright and very young star HR 8799, about 130 light-years away. This montage shows the image and the spectrum of the star and the planet as seen with the NACO adaptive optics instrument on ESO’s Very Large Telescope. (Image: ESO/M. Janson)

The researchers obtained the spectrum of a giant exoplanet that orbits the bright, very young star HR 8799. The system is at about 130 light-years from Earth. The star has 1.5 times the mass of the sun, and hosts a planetary system that resembles a scaled-up model of our own solar system. Three giant companion planets were detected in 2008 by another team of researchers, with masses between 7 and 10 times that of Jupiter. They are between 20 and 70 times as far from their host star as the Earth is from the sun; the system also features two belts of smaller objects, similar to our solar system's asteroid and Kuiper belts.

"Our target was the middle planet of the three, which is roughly ten times more massive than Jupiter and has a temperature of about 800 degrees Celsius," said team member Carolina Bergfors. "After more than five hours of exposure time, we were able to tease out the planet's spectrum from the host star's much brighter light."

This is the first time the spectrum of an exoplanet orbiting a normal, almost Sun-like star has been obtained directly. Previously, the only spectra to be obtained required a space telescope to watch an exoplanet pass directly behind its host star in an "exoplanetary eclipse," and then the spectrum could be extracted by comparing the light of the star before and after. However, this method can only be applied if the orientation of the exoplanet's orbit is exactly right, which is true for only a small fraction of all exoplanetary systems. The present spectrum, on the other hand, was obtained from the ground, using ESO's Very Large Telescope (VLT), in direct observations that do not depend on the orbit's orientation.

PFG Precision Optics - Precision Optics 12/24 MR

As the host star is several thousand times brighter than the planet, this is a remarkable achievement.

"It's like trying to see what a candle is made of, by observing it from a distance of two kilometers when it's next to a blindingly bright 300 W lamp," Janson said.

The discovery was made possible by the infrared instrument NACO, mounted on the VLT, and relied heavily on the extraordinary capabilities of the instrument's adaptive optics system. Even more precise images and spectra of giant exoplanets are expected both from the next generation instrument SPHERE, to be installed on the VLT in 2011, and from the European Extremely Large Telescope.

The newly collected data show that the atmosphere enclosing the planet is still poorly understood.

"The features observed in the spectrum are not compatible with current theoretical models," explained co-author Wolfgang Brandner. "We need to take into account a more detailed description of the atmospheric dust clouds, or accept that the atmosphere has a different chemical composition from that previously assumed."

The astronomers hope to soon get their hands on the fingerprints of the other two giant planets so they can compare, for the first time, the spectra of three planets belonging to the same system.

"This will surely shed new light on the processes that lead to the formation of planetary systems like our own," Janson said.

For more information, visit: www.eso.org

Published: January 2010
Glossary
astronomy
The scientific observation of celestial radiation that has reached the vicinity of Earth, and the interpretation of these observations to determine the characteristics of the extraterrestrial bodies and phenomena that have emitted the radiation.
photonics
The technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. The science includes light emission, transmission, deflection, amplification and detection by optical components and instruments, lasers and other light sources, fiber optics, electro-optical instrumentation, related hardware and electronics, and sophisticated systems. The range of applications of photonics extends from energy generation to detection to communications and...
spectrum
See optical spectrum; visible spectrum.
asteroid beltastronomyatmospheric dust cloudsBasic ScienceCarolina Bergforscompanion planetsenergyESOEupopean Extremely Large TelescopeEuropeEuropean Southern ObservatoryexoplanetsGermanygreen photonicsHR 8799ImagingJupiterKuiper beltMarkus JansonNACO adaptive opticsNews & FeaturesOpticsphotonicsplanets compositionResearch & TechnologyspectrumSPHERESunSun-like starTest & MeasurementVery Large TelescopeVLT

We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.