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Amazing JWST images show a nebula shaped by a multi-star system

The stunning filaments and coils of light that make up the Southern Ring Nebula were shaped by as many as five stars all orbiting one another in a complex dance
The Webb Space Telescope offers dramatically different views of the same scene! Each image combines near- and mid-infrared light from three filters. At left, Webb?s image of the Southern Ring Nebula highlights the very hot gas that surrounds the central stars. This hot gas is banded by a sharp ring of cooler gas, which appears in both images. At right, Webb?s image traces the star?s scattered outflows that have reached farther into the cosmos. Most of the molecular gas that lies outside the band of cooler gas is also cold. It is also far clumpier, consisting of dense knots of molecular gas that form a halo around the central stars. ?One of the things that drew my attention was the strong difference between the images of the hot ionized gas and the cold molecular gas,? explained Isabel Aleman of Federal University of Itajub? (UNIFEI), Brazil. ?The hot gas is very smooth, but the cold gas shows these mini clumps, spikes, and arcs. Webb?s images are very, very rich in detail.? By accounting for the temperatures and gas contents in both areas, inside and outside the band, and by combining Webb?s data with precise measurements from other observatories, she and the research team were able to create far more accurate models to demonstrate when gas was ejected by the central star (which appears red in the image at left). What about the third star that is visible at the lower-right edge of the band within the nebula? From Webb?s vantage point, it appears within the scene, but isn?t part of the nebula itself. It?s merely ?photobombing? this party.
The Southern Ring Nebula. The left image highlights the very hot gas and the right image the stars
Joseph DePasquale/STScI

The Southern Ring Nebula is full of stars. It was once thought that nebulas, huge clouds of gas and debris in space, were created from the death of a single star, but this one鈥檚 swoops and whorls were formed by at least four stars orbiting one another 鈥 maybe even five.

at Macquarie University in Australia and her colleagues viewed the nebula, also called NGC 3132, using the James Webb Space Telescope (JWST), and created a three-dimensional model to figure out its internal structure. 鈥淚deally you would find the companion stars and wind back time. In practice you can鈥檛 do that, so you have to work like an investigator at the crime scene where the nebula itself is telling you what happened to it,鈥 says De Marco.

When a star about the size of the sun dies, it sheds its outer layers and the stellar core left in the middle heats them and makes them glow. Before these new images, we knew that there were two other stars orbiting the main star that created the Southern Ring Nebula, one nearby and one distant.

The JWST images revealed a disc of dust around the primary star that must be caused by an additional companion star, orbiting even closer than the one we knew about 鈥 about the distance between Earth and the sun. We see no sign of the star itself, so it may have fallen in and merged with the primary star.

The outer edges of the nebula also show a series of arches that look a bit like the rings in a tree stump. The spacing of these rings allowed the researchers to calculate the distance between the primary star and the star that carved them into the expanding gas cloud, which must be 40 to 60 times more distant than the star that created the disc of dust.

鈥淓very time we鈥檝e had rings like this, the only explanation that really works is that there is a companion around the star when the star is shedding, and as it orbits it imprints a track into the material,鈥 says De Marco. 鈥淵ou need a companion to make the rings, but it cannot be the same companion that made the disc.鈥

Finally, the 3D model of the nebula revealed evidence of what may be a fifth star. The reconstruction looks a bit like a lumpy egg, and each bump is paired with another on the opposite side of the gas cloud. These lumps are most likely formed by jets from the central star, but the only way to give them the random orientations they seem to have would be through the chaotic orbits of three nearby stars. That would require an additional star orbiting the primary star and the extremely nearby one that made the disc of dust, making the Southern Ring a stellar quintet.

Nature Astronomy

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Topics: James Webb space telescope / Stars