On June 16, 2018, a stupendously bright explosion tore across the cosmos and lingered in the sky above Earth for several weeks. The mysterious blast traveled 200 million light-years from the gut of the Hercules constellation, shone with the light of nearly 100 supernovas and captured the attention of the world's stargazers until, finally, it vanished from the sky as mysteriously at it appeared.
Astronomers named it "The Cow."
From the moment of its discovery, scientists knew that The Cow (officially named AT2018cow, which is a procedurally generated name) was no typical supernova. Now, months later, a team of international researchers is prepared to argue that The Cow is actually an incredible astronomical first: the birth of either a black hole or neutron star, witnessed live from Earth for the first time in recorded history. [When Space Attacks: 6 Craziest Impacts]
"We know from theory that black holes and neutron stars form when a star dies, but we've never seen them right after they are born. Never," Raffaella Margutti, an astrophysicist at Northwestern University in Evanston, Illinois, and lead author of a forthcoming paper on The Cow, said in a statement.
Through these image sources combined, the team learned that The Cow's death was truly unlike any stellar demise studied before.
For starters, The Cow worked exceedingly quickly. After suddenly bursting into being, The Cow depleted most of its energy within 16 days, casting out particles of hydrogen and helium at about 10 percent of the speed of light. According to Margutti, this timeline is significantly faster than many known stellar explosions, which can take years to flare up and die off.
Luckily, once The Cow's initial blast died down, astronomers had a relatively clear view of what Margutti called the "central engine" powering it. Something massive was heating and stirring the blast zone from the inside, causing radiation to spiral out of the center for months after the visible light had dimmed.
If Margutti and colleagues are correct, then The Cow represents the first-ever direct observation of a black hole or neutron star forming. And, conveniently, it happened relatively close to Earth.
"Two hundred million light-years is close for us," Margutti said. "This is the closest transient object of this kind that we have ever found."
Studying The Cow further could reveal valuable insights about the amazing moment when massive stars die and compact objects like black holes are born. Let's hope scientists milk it for all it's worth.
The Best Space Photos Ever: Astronauts & Scientists Weigh inSpaced Out! 101 Astronomy Images That Will Blow Your Mind11 Fascinating Facts About Our Milky Way GalaxyOriginally published on Live Science.