Black Hole Swallows Much Smaller Mysterious Astrophysical Object

Artist’s impression of black hole collision. Credit: Alex Andrix. NB: The streams and lensing around the compact objects are an artistic impression.

A black hole around 23 times the size of the Sun has swallowed a mysterious, much smaller astrophysical object, according to new research announced today by the LIGO and Virgo gravitational wave observatories, including scientists from The Australian National University (ANU).

The gravitational waves from this surprising event were detected by the LIGO and Virgo detectors on August 14, 2019, with the signal coming from a distance of around 800 million light-years.

Researchers think the mystery object is most likely either the lightest black hole or possibly the heaviest neutron star ever discovered.   

Neutron stars are formed during the explosion of a giant star and are the smallest and densest type of star in the Universe. 

But the object’s mass makes it especially “intriguing.”

“There is a mass gap between the mass of known neutron stars which are less massive and black holes which are more massive,” Professor Susan Scott from the ANU Research School of Physics said.

“This object falls within that mass gap, making it either the heaviest neutron star or the lightest black hole ever discovered.”

The mass of the mysterious object, at 2.6 solar masses, is similar to that of the object formed from the first-ever observation by LIGO and Virgo in 2017 of two neutron stars colliding, which is thought to be a black hole. 

The ANU SkyMapper Telescope scanned the area of space where the event occurred, but couldn’t find any visual clues.

“Finding light from this event would have been the smoking gun that proved we had just made the first-ever observation of the merger of a black hole with a neutron star,” Professor Scott said, who is also Leader of the General Relativity Theory and Data Analysis Group at ANU and a Chief Investigator with the ARC Centre of Excellence for Gravitational Wave Discovery (OzGrav).

“But due to the very unequal masses of the colliding objects and because this event was so far away, the absence of any visual clues is consistent with either a binary black hole merger or the merger of a black hole with a neutron star.”

The ‘ripples’ from the event also add further weight to a well-known scientific theory, according to OzGrav postdoctoral researcher Dr. Terry Mcrae from ANU.  

“The theory of general relativity predicts changes in the gravitational waves produced when very different sized objects are involved in the collision. This event confirms that prediction,” Dr. Mcrae said.

“This further cements general relativity as the most successful theory in physics of the modern era.”

For more on this research:

Mystery Astronomical Object in ‘Mass Gap’ Discovered by LIGO-Virgo Gravitational-Wave Observatory Astronomers Stunned by Black Hole With a Puzzling Companion Astronomers Find Mystery Object in Mass Gap Gravitational Wave Astronomers Find Mystery Object in Mass Gap

Reference: “GW190814: Gravitational Waves from the Coalescence of a 23 Solar Mass Black Hole with a 2.6 Solar Mass Compact Object” by R. Abbott, et. al., 23 June 2020, Astrophysical Journal Letters.
DOI: 10.3847/2041-8213/ab960f

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