The event, captured on 16 June 2018 by the NASA-funded ATLAS-1 telescope in Hawaii and several other sources, is known to have originated in a star-forming galaxy in the Hercules constellation, some 200 million light-years away from Earth, meaning the event occurred while dinosaurs still roamed the earth.
Over three days, astronomers witnessed an explosion of light equivalent to at least ten supernovas before proceeding to fade over the next several months. The event was officially classified the AT2018cow, but was quickly nicknamed "the Cow" by astronomers.
That's where the scientific consensus ends.
At a meeting of the American Astronmical Society in Seattle on Thursday, researchers of two opposing camps – one saying that 'the Cow' was a massive black hole shredding a passing star, and the other claiming it was a supernova event giving birth to a neutron star or black hole, met to discuss their theories.
Massive Supernova?
Dr. Raffaella Margutti, an astrophysicist from Northwestern University and team leader of the 'supernova event' group, indicated that the importance of the event for science could not be overemphasised.
In other words, if the team's theory is proven, it will be humanity's first-ever confirmed spotting of the creation of a black hole. Study coauthor Brian Grefenstette, an instrument scientist at Caltech, explained that "if we're seeing the birth of a compact object in real time, this could be the start of a new chapter in our understanding of stellar evolution."
The team studied data from several observatories, including NASA's NuSTAR, the European Space Agency's XMM-Newton and INTEGRAL satellites, and the National Science Foundation's Very Large Array, a US radio-based observatory.
Tidal Disruption?
The other team, led by Dr. Paul Kuin of University College London (UCL), believes that the Cow was a "tidal disruption event," and what scientists really witnessed was a massive black hole shredding a passing white dwarf star into a stream of gas with a powerful gravitational wave.
"We think a tidal disruption created the quick, really unusual burst of light at the beginning of the event and best explains Swift's multi-wavelength observations as it faded over the next few months," study co-author Dr. Amy Lien said, referring to data gleaned from NASA's space-based Neil Gehrels Swift Observatory.
Calculating that the 'offending' black hole was between 100,000 to one million times the mass of our Sun, the 'tidal disruption event' proponents believe the star that was shredded was a dwarf star only about the size of Earth.
"We looked at this object with many different observatories, and of course the more windows you open onto an object, the more you can learn about it. But, as we're seeing with the Cow, that doesn't mean the solution will be simple," he concluded.