The consequences of the explosion are evident in the current era.
Locate phenomena such as supernovae with current tools. As with the NuSTAR telescope, it’s not a complicated mission, though Explodes which was recorded on this occasion seemed to contain an aura of An almost unrepeatable event. It turned out thanks Work done by the US National Science Foundationwe were able to watch the remaining brightness of The eruption that occurred nearly two thousand years ago in time. Now, from Chile, her twinkle continues to show the way to her cosmic outpost.
Its heartbeat is delayed, but we can still feel the echo of this supernova
As you can see in the video that the North American organization showed off on its YouTube channel, the astronomers who run it Dark energy cameralocated in Cerro Tololo Astronomical Observatory in Chilewas able to watch a Far blast. So far away that it happened around the year 185 of our era, roughly 2000 before it was shown by modern 21st century machines. he Victor M Blanco Telescope Opening 4 meters, in this case, it was responsible who noticed you.
We are talking about White dwarf explosion, technically called RCW 86, which became the food of the universe. On this occasion, the event was really important to the scientific community since now it has been made possible Learn how the RCW 86 came to beSince we are talking about a file universe area visible always defined as a file gas nebula Or as a supernova remnant.
this Supernova known b SN185 And it was It is located 8,000 light-years away From Earth, in the direction of the Alpha Centauri star system. Now, 1,800 years later, we are witnessing how an explosion left a region of the universe so glowing that we can observe it from a distance. Finally, it should be clear that this Types of explosions usually occurmost commonly, in binary star systems. from NOIRLab makes sure which – which:
Astronomers now have a more complete picture of how RCW 86 formed. Like a white dwarf in a binary system that swallowed material from its companion star, its high-speed winds pushed surrounding gas and dust outward, creating the cavity we see today.