First time Gravitational waves detected from black hole
- Einstein’s General Theory of Relativity predicted that a black hole of a given mass and spin can only produce tones of a certain pitch and decay.
- The team consisting of researchers from the Massachusetts Institute of Technology (MIT) in the U.S., calculated the mass and spin that the black hole should have using physicist Albert Einstein’s General Theory of Relativity, given its ringing pattern.
- These calculations, according to the study, matched earlier measurements of the black hole’s mass and spin.
- In an earlier discovery of gravitational waves from two spiralling black holes collapsing into one, scientists had determined that the peak of the signal from the waves was linked to the very moment when the two bodies collided.
- While there were gravitational waves produced by the black hole newly formed from the collision, its signature ringing was thought to be too feeble to decipher against that of the initial collision.
- Mr. Isi and his team found a way to extract the black hole’s reverberation from the moments immediately after the signal’s peak, as they had found that the signal contained “overtones” – a family of loud, short-lived tones.
- The researchers discovered that they could successfully isolate a ringing pattern exclusive to a newly formed black hole by applying their knowledge of the overtones.
- By concentrating on the last few milliseconds of the signal, immediately following the chirp’s peak, the researchers were able to observe the newly formed black hole’s ringing.