For the first time, astronomers using NASA\u2019s Fermi Gamma-ray Space Telescope have traced a budding outflow of gas from a cluster of young stars in our galaxy \u2014 insights that help us understand how the universe has evolved as NASA explores the secrets of the cosmos for the benefit of all.<\/p>\n
The cluster, called Westerlund 1<\/a>, is located about 12,000 light-years away in the southern constellation Ara. It\u2019s the closest, most massive, and most luminous super star cluster<\/a> in the Milky Way. The only reason Westerlund 1 isn\u2019t visible to the unaided eye is because it\u2019s surrounded by thick clouds of dust. Its outflow extends below the plane of the galaxy and is filled with high-speed, hard-to-study particles called cosmic rays<\/a>.<\/p>\n \u201cUnderstanding cosmic ray outflows is crucial to better comprehending the long-term evolution of the Milky Way,\u201d said Marianne Lemoine-Goumard, an astrophysicist at the University of Bordeaux<\/a> in France. \u201cWe think these particles carry a large amount of the energy released within clusters. They could help drive galactic winds, regulate star formation, and distribute chemical elements within the galaxy.\u201d<\/p>\n A paper<\/a> detailing the results published Dec. 9 in Nature Communications. Lemoine-Goumard led the research with Lucia H\u00e4rer and Lars Mohrmann, both at the Max Planck Institute for Nuclear Physics<\/a> in Heidelberg, Germany.<\/p>\n Super star clusters like Westerlund 1 contain more than 10,000 times our Sun\u2019s mass. They are also more luminous and contain higher numbers of rare, massive stars than other clusters.<\/p>\n