The trajectory of interstellar comet 3I/ATLAS as it passes through the solar system NASA/JPL-Caltech
An interstellar object currently passing through our solar system might be one of the oldest comets we have ever seen, originating from a star billions of years older than our own.
Comet 3I/ATLAS was spotted earlier this month near the orbit of Jupiter, estimated to be 20 kilometres across and moving at about 60 kilometres a second. It is the third known interstellar object found in our solar system, and will pass close to Mars in October before heading away from our sun.
at the University of Oxford and his colleagues modelled the comet鈥檚 speed and trajectory to work out where it came from, using data from the European Space Agency鈥檚 Gaia spacecraft that mapped a billion stars in our 13-billion-year-old galaxy. It looks like it originated near a region of our galaxy called the thick disc, containing older stars and sitting above the thin disc in which our sun orbits.
鈥淭hick disc objects are faster,鈥 says Hopkins, whereas the prior two known interstellar objects 鈥 鈥极耻尘耻补尘耻补 in 2017 and Comet Borisov in 2019 鈥 were slower. 鈥淭heir velocities were what we鈥檇 expect for a thin disc object.鈥
The team鈥檚 modelling suggests 3I/ATLAS comes from a star that is at least 8 billion years old, almost twice the age of our sun, and possibly even older. 鈥淚t could be the oldest comet we鈥檝e ever seen,鈥 says Hopkins. It is thought that interstellar objects are more likely to be ejected early in a star鈥檚 life, perhaps flung out by passing stars or interactions with giant planets.
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Older stars are likely to have a lower metal content than our sun, which would also result in a higher water content for their comets, says Hopkins. If that is true, we could start to see large amounts of water spewing from the comet as it approaches the sun in the coming months.
This would probably be its first encounter with another star, giving us a glimpse at pristine material billions of years older than Earth. 鈥淲e think most interstellar objects that we see will be encountering a star for the first time, even if they鈥檙e 8 billion years old,鈥 says Hopkins. 鈥淭hey would have been wandering in deep space until they got near us.鈥
Reference:
arXiv
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