AssetID: 54922179
Headline: RAW VIDEO: Astronomers Spot The Birth Of A Solar System For First Time
Caption: Astronomers have spotted the birth of a new solar system for the very first time ever. Using the ALMA telescope, in which the European Southern Observatory (ESO) is a partner, and the James Webb Space Telescope, they observed the creation of the first specks of planet-forming material - hot minerals just beginning to solidify. This finding marks the first time a planetary system has been identified at such an early stage in its formation. "For the first time, we have identified the earliest moment when planet formation is initiated around a star other than our Sun,” says Melissa McClure, a professor at Leiden University in the Netherlands and lead author of the new study, published today in Nature. Co-author Merel van ‘t Hoff, a professor at Purdue University, USA, compares their findings to "a picture of the baby Solar System", saying that “we're seeing a system that looks like what our Solar System looked like when it was just beginning to form.” This newborn planetary system is emerging around HOPS-315, a ‘proto’ or baby star that sits some 1300 light-years away from us and is an analogue of the nascent Sun. Around such baby stars, astronomers often see discs of gas and dust known as ‘protoplanetary discs’, which are the birthplaces of new planets. While astronomers have previously seen young discs that contain newborn, massive, Jupiter-like planets, McClure says, “we've always known that the first solid parts of planets, or ‘planetesimals’, must form further back in time, at earlier stages.” In our Solar System, the very first solid material to condense near Earth’s present location around the Sun is found trapped within ancient meteorites. Astronomers age-date these primordial rocks to determine when the clock started on our Solar System’s formation. Such meteorites are packed full of crystalline minerals that contain silicon monoxide (SiO) and can condense at the extremely high temperatures present in young planetary discs. Over time, these newly condensed solids bind together, sowing the seeds for planet formation as they gain both size and mass. The first kilometre-sized planetesimals in the Solar System, which grew to become planets such as Earth or Jupiter’s core, formed just after the condensation of these crystalline minerals. With their new discovery, astronomers have found evidence of these hot minerals beginning to condense in the disc around HOPS-315. Their results show that SiO is present around the baby star in its gaseous state, as well as within these crystalline minerals, suggesting it is only just beginning to solidify. "This process has never been seen before in a protoplanetary disc — or anywhere outside our Solar System," says co-author Edwin Bergin, a professor at the University of Michigan, USA. The minerals were first identified using the James Webb Space Telescope, a joint project of the US, European and Canadian space agencies. To find out where exactly the signals were coming from, the team observed the system with ALMA, the Atacama Large Millimeter/submillimeter Array, which is operated by ESO together with international partners in Chile’s Atacama Desert. With these data, the team determined that the chemical signals were coming from a small region of the disc around the star equivalent to the orbit of the asteroid belt around the Sun. “We're really seeing these minerals at the same location in this extrasolar system as where we see them in asteroids in the Solar System,“ says co-author Logan Francis, a postdoctoral researcher at Leiden University. Explaining how it provides a window into our owb history, van ‘t Hoff says, “this system is one of the best that we know to actually probe some of the processes that happened in our Solar System."
Keywords: feature,photo,video,solar system,space,astronomy,science
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