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Two Indian scientists discover closest-ever pair of supermassive black holes

Two Pune-based scientists are involved in the discovery of two closest-ever black holes, in a super-massive binary black hole system, which is about 400 million light years from Earth

Edited by: India TV News Desk, Pune [ Updated: September 21, 2017 22:18 IST ]
Supermassive black holes - Representational Image
Supermassive black holes - Representational Image

Two Pune-based scientists are involved in the discovery of two closest-ever black holes, in a super-massive binary black hole system, which is about 400 million light years from Earth. This is the closest known such system in the universe till date. 

The supermassive black holes are located in the spiral galaxy NGC 7674, approximately 400 million light years from Earth, and are separated by a distance less than one light year.

Supermassive black holes are rare as only one has been spotted so far, about 24 light years apart. The discovery of two black holes only a light year apart holds importance as it provides more evidence that supermassive black holes collide in galaxies, and are the source of gravitational waves.

The study was led by Preeti Kharb from the National Centre for Radio Astrophysics (NCRA) of the Tata Institute of Fundamental Research (TIFR) in Pune and co-authored by Dharam Vir Lal, also at NCRA-TIFR and David Merritt at Rochester Institute of Technology in the US.

The existence of binary black holes, roughly 10 times the mass of sun, was confirmed by the recent detection of gravitational waves by the Laser Interferometer Gravitational-Wave Observatory (LIGO). 

A class of smaller black holes form when massive stars explode as supernovae.

 
A collision of stellar mass black holes led to the landmark discovery of gravitational waves in 2015 using the Laser Interferometer Gravitational-wave Observatory. 

The black holes were approximately 29 and 36 times the mass of the sun and collided 1.3 billion light years away.

"A supermassive binary generates gravitational waves with much lower frequency than the characteristic frequency of stellar-mass binaries and its signal is undetectable by LIGO," Merritt said.

To simulate a highly sensitive detector, the researchers used a method to make radio telescopes around the world work together as a single large telescope and achieve a resolution roughly 10 million times the angular resolution of the human eye.

"Using very long baseline interferometry techniques, two compact sources of radio emission were detected at the center of NGC 7674; the two radio sources have properties that are known to be associated with massive black holes that are accreting gas, implying the presence of two black holes," Merritt said.

The galaxy hosting the binary supermassive black hole loudly emits radio waves. 

The detection confirms a theory predicting the presence of a compact binary in a radio galaxies bearing a "Z" shape.

"This morphology is thought to result from the combined effects of the galaxy merger followed by the formation of the massive binary," Merritt said.

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