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    Home»Science»Strange ‘reverse shock wave’ supernova is exploding in the wrong
    Science

    Strange ‘reverse shock wave’ supernova is exploding in the wrong

    By AdminApril 21, 2022
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    A colorized image of Cassiopeia A based on data from the Hubble, Spitzer and Chandra space telescopes. (Image credit: NASA/JPL-Caltech)

    A powerful shock wave traveling through a cloud of gas left behind by the explosive death of a star has a bizarre quirk: Part of it is traveling in the wrong direction, a new study reveals. 

    In the study, researchers found that the shock wave is accelerating at different rates, with one section collapsing back toward the origin of the stellar explosion, or supernova, in what the study authors call a “reverse shock.”  

    Cassiopeia A is a nebula, or gas cloud, left behind by a supernova in the constellation Cassiopeia, around 11,000 light-years from Earth, making it one of the closest supernova remnants. The nebula, which is around 16 light-years wide, is made of gas (mainly hydrogen) that was expelled both before and during the explosion that ripped apart the original star. A shock wave from that explosion is still rippling through the gas, and theoretical models show that this shock wave should be expanding evenly, like a perfectly rounded balloon that’s constantly being inflated. 

    But the researchers found that this wasn’t the case.

    “For a long time, we suspected something weird was going on inside Cassiopeia A,” lead author Jacco Vink, an astronomer at the University of Amsterdam in the Netherlands, told Live Science. Previous studies had shown that the internal motions within the nebula were “rather chaotic” and highlighted that the western region of the shock wave moving through the gas cloud might even be going in the wrong direction, he added.

    Related: 11 fascinating facts about our Milky Way galaxy 

    In the new study, the researchers analyzed the movement of the shock wave, using X-ray images collected by NASA’s Chandra X-ray Observatory, a telescope that orbits Earth. The data, collected over 19 years, confirmed that part of the western region of the shock wave was, in fact, retreating in the opposite direction in a reverse shock. 

    But they also discovered something even more surprising: Parts of the same region were still accelerating away from the supernova’s epicenter, like the rest of the shock wave.

    Uneven expansion 

    The current average speed of the expanding gas in Cassiopeia A is around 13.4 million mph (21.6 million km/h), which makes it one of the fastest shock waves ever seen in a supernova remnant, Vink said. This is mainly because the remnant is so young; light from Cassiopeia A reached Earth in 1970. But over time, shock waves lose their momentum to their surroundings and slow down. 

    Cassiopeia A consists of two main expanding bands of gas: an inner shell and an outer shell. These two shells are two halves of the same shock wave, and across most of the nebula, the inner and outer shells are traveling at the same speed and in the same direction. But in the western region, the two shells are going in opposite directions: The outer shell is still expanding outward, but the inner shell is moving back toward where the exploding star would have been. 

    An image of Cassiopeia A showing the shock wave move through the inner and outer shells of gas. The blue arrows show the western section of the inner shell moving back towards the center of the nebula. (Image credit: J.Vink/astronomie.nl)

    The reverse shock is retreating at around 4.3 million mph (6.9 million km/h), which is about a third of the average expansion speed of the rest of the nebula. However, what really puzzled the researchers was how fast the outer shell was expanding compared with the retreating inner shell in this region. The researchers had expected the outer shell to be expanding at a decreased rate compared with the rest of the shock wave, but they found that it was actually accelerating faster than some other regions of the shock wave. “That was a total surprise,” Vink said.

    Cosmic collision 

    The unusual expansion within Cassiopeia A’s western region does not match up with theoretical supernova models and suggests that something happened to the shock wave in the aftermath of the stellar explosion, Vink said. 

    The researchers said the most likely explanation is that the shock wave collided with another shell of gas that was likely ejected by the star before it exploded. As the shock wave hit this gas, it may have slowed down and created a pressure buildup that pushed the inner shell back toward the center. However, the outer shell still may have been forced through this blockage and begun to accelerate again on the other side, Vink said. “This explains both the inward movement of the inner shell but also predicts that the outer shell should be accelerating, as indeed we measured,” he added. 

    The researchers also think the unique way the original star died could explain the uneven shock wave. Cassiopeia A is the result of a Type IIb supernova, in which a massive star exploded after it  had almost completely shed its outer layers, Vink said.

    An image of  Cassiopeia A combining X-ray data collected by NASA’s Imaging X-ray Polarimetry Explorer, shown in magenta, and NASA’s Chandra X-Ray Observatory, in blue. (Image credit: NASA/CXC/SAO/IXPE)

    “X-ray estimates suggest that the star was around four to six times the mass of the sun during the explosion,” Vink said, but the star most likely had a mass of around 18 times the sun when it was born. This means the star lost around two-thirds of its mass, most of which would have been hydrogen, before it exploded; The shock wave may have later collided with this gas, Vink said.

    There are several theories as to why Cassiopeia A lost so much of its mass before it exploded. In September 2020, another team of researchers proposed that the original star was part of a binary star system, where two stars orbit each other. That research team said this companion star also could have gone supernova before Cassiopeia A and blasted off the star’s hydrogen “skin” in the process, Live Science previously reported. 

    However, the authors of the new study are unconvinced by this theory. “The only problem is that we have not yet found the remains of the other star,” Vink said. “So, at this stage, it remains speculative.”

    So for now, no one knows exactly what is fueling Cassiopeia A’s uneven shock wave.

    The study was published online Jan. 21 in the preprint server arXiv and has been accepted for future publication in The Astrophysical Journal.

    Originally published on Live Science.

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