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NASA Astronomers discover “Super Jupiter” planet orbiting Massive Star
Posted By News Staff On Tuesday, November 20, 2012 @ 1:30 am In Technology | No Comments
Written by Francis Reddy
NASA’s Goddard Space Flight Center
Greenbelt, MD – Astronomers using infrared data from the Subaru Telescope in Hawaii have discovered a “super-Jupiter” around the bright star Kappa Andromedae, which now holds the record for the most massive star known to host a directly imaged planet or lightweight brown dwarf companion.
Designated Kappa Andromedae b (Kappa And b, for short), the new object has a mass about 12.8 times greater than Jupiter’s. This places it teetering on the dividing line that separates the most massive planets from the lowest-mass brown dwarfs.
That ambiguity is one of the object’s charms, say researchers, who call it a super-Jupiter to embrace both possibilities.
“According to conventional models of planetary formation, Kappa And b falls just shy of being able to generate energy by fusion, at which point it would be considered a brown dwarf rather than a planet,” said Michael McElwain, a member of the discovery team at NASA’s Goddard Space Flight Center in Greenbelt, MD. “But this isn’t definitive, and other considerations could nudge the object across the line into brown dwarf territory.”
Massive planets slowly radiate the heat leftover from their own formation. For example, the planet Jupiter emits about twice the energy it receives from the sun. But if the object is massive enough, it’s able to produce energy internally by fusing a heavy form of hydrogen called deuterium. (Stars like the sun, on the other hand, produce energy through a similar process that fuses the lighter and much more common form of hydrogen.) The theoretical mass where deuterium fusion can occur — about 13 Jupiters — marks the lowest possible mass for a brown dwarf.
“Kappa And b, the previously imaged planets around HR 8799 and Beta Pictoris, and the most massive planets discovered by non-imaging techniques likely all represent a class of object that formed in much the same way as lower-mass exoplanets,” said lead researcher Joseph Carson, an astronomer at the College of Charleston, SC, and the Max Planck Institute for Astronomy in Heidelberg, Germany.
The discovery of Kappa And b also allows astronomers to explore another theoretical limit. Astronomers have argued that large stars likely produce large planets, but experts predict that this stellar scaling can only extend so far, perhaps to stars with just a few times the sun’s mass. The more massive a young star is, the brighter and hotter it becomes, resulting in powerful radiation that could disrupt the formation of planets within a circumstellar disk of gas and dust.
The research is part of the Strategic Explorations of Exoplanets and Disks with Subaru (SEEDS), a five-year effort to directly image extrasolar planets and protoplanetary disks around several hundred nearby stars using the Subaru Telescope on Mauna Kea, Hawaii.
Direct imaging of exoplanets is rare because the dim objects are usually lost in the star’s brilliant glare. The SEEDS project images at near-infrared wavelengths using the telescope’s adaptive optics system, which compensates for the smearing effects of Earth’s atmosphere, in concert with its High Contrast Instrument for the Subaru Next Generation Adaptive Optics and Infrared Camera and Spectrograph.
Young star systems are attractive targets for direct exoplanet imaging because young planets have not been around long enough to lose much of the heat from their formation, which enhances their brightness in the infrared. The team focused on the star Kappa And because of its relative youth — estimated at the tender age of 30 million years, or just 0.7 percent the age of our solar system, based on its likely membership in a stellar group known as the Columba Association. The B9-type star is located 170 light-years away in the direction of the constellation Andromeda and is visible to the unaided eye.
Kappa And b orbits its star at a projected distance of 55 times Earth’s average distance from the sun and about 1.8 times as far as Neptune; the actual distance depends on how the system is oriented to our line of sight, which is not precisely known. The object has a temperature of about 2,600 degrees Fahrenheit (1,400 Celsius) and would appear bright red if seen up close by the human eye.
Comparing the brightness of the super-Jupiter between different wavelengths revealed infrared colors similar to those observed in the handful of other gas giant planets successfully imaged around stars.
A paper describing the results has been accepted for publication in The Astrophysical Journal Letters and will appear in a future issue.
The SEEDS research team is continuing to study Kappa And b to better understand the chemistry of its atmosphere, constrain its orbit, and search for possible secondary planets.
Coincidentally, the stellar association that hosts Kappa And also includes another famous high-mass star, HR 8799, which is one of the first where astronomers directly imaged an extrasolar planet. The system hosts several gas giant planets with masses and infrared colors similar to Kappa And b.
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 Paper (preprint): “Direct Imaging Discovery of a ‘Super-Jupiter’ Around the late B-Type Star Kappa And.”: http://arxiv.org/abs/1211.3744
 Related multimedia from NASA Goddard’s Scientific Visualization Studio: http://svs.gsfc.nasa.gov/vis/a010000/a011100/a011115/
 Subaru Telescope press release: “Direct Imaging of a Super-Jupiter Around a Massive Star” (11.19.12): http://subarutelescope.org/Pressrelease/2012/11/19/index.html
 “Spiral Arms Point to Possible Planets in a Star’s Dusty Disk” (10.19.11): http://www.nasa.gov/topics/universe/features/possible-planets.html
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