Two years ago, astronomers in Canada directly imaged what seemed to be a gas giant planet in a very distant orbit—more than 300 times the Earth-Sun distance of one astronomical unit (AU)—around a star much like our Sun. (For comparison, Jupiter’s orbit is 5.2 AU, Neptune’s is 30 AU.) Such a scenario poses difficulties for all the major planet-formation models in current use: core accretion, gravitational instability, and fragmentation of a pre-stellar core. The main difficulty is that either much larger objects, like another star, or much smaller ones are expected at such a great distance. Now, with further observations in hand from the Gemini North telescope and its adaptive optics, University of Toronto astronomers Ray Jayawardhana, Marten van Kerkwijk, and David Lafrenière (now at the University of Montreal) have confirmed the puzzle: The planet, with about eight times the mass of Jupiter, is moving through space gravitationally bound to...
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1 September 2010
September 01 2010
Directly imaged exoplanet challenges formation models
Physics Today 63 (9), 19 (2010);
Citation
Stephen G. Benka; Directly imaged exoplanet challenges formation models. Physics Today 1 September 2010; 63 (9): 19. https://doi.org/10.1063/1.4796364
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