Credit: NASA, ESA, and A. Gáspár and G. Rieke (University of Arizona)

This diagram simulates what astronomers studying the Hubble Space Telescope observations, taken over several years, consider evidence for the first-ever detection of a titanic planetary collision in another star system. The color-tinted Hubble image on the left is of a vast ring of icy debris encircling the star Fomalhaut, located 25 light-years away. The star is so brilliant that a black occulting disk is used to block out its glare so that the dust ring can be photographed. In 2008, astronomers saw what they thought was the first direct image of a planet orbiting far from the star. However, by 2014, the planet candidate faded below Hubble's detection. The best interpretation is that the object wasn't ever a fully formed planet at all, but an expanding cloud of dust from a collision between two minor bodies, each about 125 miles across. The diagram at the right is based on simulation of the expanding and fading cloud. The cloud, made of very fine dust particles, is estimated to be 100 million miles across. Smashups like this are estimated to happen around Fomalhaut once every 200,000 years. Therefore, Hubble was looking at the right place at the right time to capture this transient event.

Provider: Space Telescope Science Institute

Image Source: https://hubblesite.org/contents/news-releases/2020/news-2020-09

Curator: STScI, Baltimore, MD, USA

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