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Nobel prize for gravitational wave detection: Who, What, When, Where and How

The collision of two black holes — a tremendously powerful event detected for the first time ever by the Laser Interferometer Gravitational-Wave Observatory, or LIGO — is seen in this still image from a computer simulation released in Washington February 11, 2016.

The collision of two black holes — a tremendously powerful event detected for the first time ever by the Laser Interferometer Gravitational-Wave Observatory, or LIGO — is seen in this still image from a computer simulation released in Washington February 11, 2016.   | Photo Credit: REUTERS

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All you need to know about the 2017 Nobel Prize for Physics

Who has received the 2017 Nobel Prize for Physics?

The prize is shared by Rainer Weiss, Barry Barish and Kip Thorne “for decisive contributions to the LIGO detector and discovery of gravitational waves.”

Dr. Weiss — born in Berlin and now a U.S. citizen — receives half the prize. The remaining half is shared equally by two Caltech scientists — Dr. Barish, Professor of Physics and Dr. Thorne, Professor of Theoretical Physics.

Nobel prize for gravitational wave detection: Who, What, When, Where and How
 

What did they discover?

They are receiving the prize for the discovery of the gravitational waves released by violent events in the universe such as the mergers of black holes. The first time this was detected was on September 14, 2015, by the LIGO-VIRGO collaboration. Since then three more detections have been made, the latest one on September 28, 2017.

Why do gravitational waves matter to us?

The discovery is due to an extremely delicate experiment. Gravitational waves were predicted by Einstein almost 100 years ago. After about 50 years of experimentation the waves were detected for the first time in September 2015.

 

The discovery and the repeated detection (four times now) has made the possibility of gravitational wave astronomy very real. Gravitational wave astronomy is a way of mapping out some of the most violent processes in the universe such as black hole or neutron star mergers that cannot be detected with light or the conventional methods.

The discovery can pave the way for proving the general theory of relativity, so that we can look deeper and deeper into the universe. It also throws up the possibility of detectors that can look at the beginning of the universe.

How big is the experiment and what was their individual part in the whole thing?

The scientists in the collaboration are from five continents, over 1,000 in number.

Prime Minister Narendra Modi poses with a group of scientists including some of Indian-origin from the Laser Interferometer Gravitational-Wave Observatory (LIGO) after their bilateral meeting in Washington on March 31, 2016.

Prime Minister Narendra Modi poses with a group of scientists including some of Indian-origin from the Laser Interferometer Gravitational-Wave Observatory (LIGO) after their bilateral meeting in Washington on March 31, 2016.   | Photo Credit: PTI

 

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Printable version | Dec 15, 2019 3:02:38 AM | https://www.thehindu.com/sci-tech/science/2017-nobel-prize-for-physics-for-gravitational-waves-all-you-need-to-know/article19790936.ece

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