Gravitational Waves

Gravitational waves are ripples in space-time created by the interaction of massive objects in space, such as black holes and neutron stars. Their existence was first predicted by Albert Einstein in his 1916 paper describing his theory of general relativity. In 2015, scientists made the first detection of gravitational waves, observing ripples from the collision of two black holes. The discovery won astrophysicists Kip Thorne, Barry Baris and Rainer Weiss the 2017 Nobel Prize for Physics. Subsequent observations have also detected gravitational waves from colliding neutron stars. Learn more about gravitational waves here.

Related Topics: Black Holes, Dark Matter, The Theory of Relativity in Space

Latest Updates

An artist's impression of the Lunar Gravitational Wave Antenna located inside a lunar crater.

Gravitational wave detectors on the moon could be more sensitive than those on Earth

By Tereza Pultarova published

Scientists developing more sensitive next-generation gravitational wave detectors struggle with technical challenges that might be easily overcome by putting such detectors on the moon.

An artist’s impression of matter being stripped from one star to another, removing their hydrogen envelope

Gravitational waves show black holes prefer certain masses before they collide

By Keith Cooper published

Knowing that black holes tend to have these masses could help provide a new way of measuring the expansion rate of the universe.

Bright points of light spread out throughout space emit a grid-like pattern.

Supermassive black holes may solve mystery of our universe's gravitational-wave 'hum'

By Robert Lea published

NANOGrav made the first detection of low-frequency gravitational waves this year. Now, the hunt is on to find the source of these ripples in space — and supermassive black holes are lead suspects.

an artist's illustration of gravitational waves, showing spiraling ripples on a grid-like surface emerging from two merging spheres

Gravitational waves could help us find out how fast the universe's expansion is accelerating

By Robert Lea published

Gravitational waves from merging black holes distorted due to a phenomenon predicted by Einstein could be a new way of measuring the rate of cosmic expansion.

bright points of light spread out throughout space emit a grid-like pattern

The universe is humming with gravitational waves. Here's why scientists are so excited about the discovery

By Robert Lea published

The very fabric of the universe is ringing with gravitational waves from its earliest epoch, and researchers have finally "heard" this cosmic symphony.

bright points of light spread out throughout space emit a grid-like pattern

The gravitational wave background of the universe has been heard for the 1st time

By Sharmila Kuthunur published

In a historic first, astronomers have detected low-frequency gravitational waves using a galaxy-sized antenna of millisecond pulsars in the Milky Way.

a colorful burst of gases in an hourglass shape in space

Gravitational waves may come from 'cocoons' of debris around dying stars (video)

By Sharmila Kuthunur published

Astronomers have created the first model for how debris around exploding stars could emit gravitational waves powerful enough to be detected by instruments on Earth.

The LIGO project's gravitational-wave detector facility in Livingston, Louisiana.

LIGO project begins new gravitational wave hunt

By Rahul Rao published

May 24 marked the start of Observation Run 4, the latest gravitational-wave hunting effort of the LIGO-Virgo-KAGRA Collaboration. But only LIGO is fully operational at the moment.

The BlackGEM array, consisting of three new telescopes at the European Southern Observatory’s La Silla Observatory in Chile, has begun operations. This photograph shows the three open domes of the BlackGEM telescopes, with three other telescopes at La Silla visible in the background.

Violent origins of gravitational waves probed by new telescope array

By Robert Lea published

The new BlackGEM array will hunt for black hole mergers and neutron star collisions, cataclysmic events that generate ripples in space-time known as gravitational waves.

The LIGO project's gravitational-wave detector facility in Livingston, Louisiana.

India will start building new gravitational wave observatory

By Sharmila Kuthunur published

On April 6, the Indian government greenlit the construction of a Laser Interferometer Gravitational-Wave Observatory (LIGO) facility in the western state of Maharashtra.

Scientists have found evidence of two ultradense neutron stars colliding billions of years ago.

Curious cosmic coincidence could help explain fast radio burst mystery

By Briley Lewis published

Two mysterious cosmic phenomena appeared in the same patch of sky nearly at once, and it may not be a coincidence.

An artist's impression of a neutron star surrounded by a disk of material that it is stealing from a regular companion star.

Astronomers poised to hunt new kind of gravitational wave

By Keith Cooper published

The gravitational waves would be weak, but potentially detectable by the next joint observing run of the world's gravitational-wave detectors.

Artist's depictions of what rocky exoplanets might look like.

Astronomers can't wait to search for signs of life and massive black-hole mergers

By Briley Lewis published

From black holes to the search for life, scientific breakthroughs are on the horizon as new observatories come online.

light blue glowing orb atop a satellite image of Manhattan and its surroundings

A new approach might help scientists see inside a neutron star

By Elizabeth Rayne published

Astrophysicists tested a potential approach to determining the state of the matter inside a neutron star, a tricky feat.

artist's depiction of black hole pair

Colliding black holes could clock universe's expansion rate

By Robert Lea published

New research suggests that the expansion of the universe could be measured using colliding black holes as 'spectral sirens.'

neutron star shooting beams into space

Unusual 'revived' pulsars could be the ultimate gravitational wave detector

By Paul Sutter published

Astronomers hope to use pulsars scattered around the galaxy as a giant gravitational wave detector. But why do we need them, and how do they work?

The GOTO telescope will hunt for sources of gravitational waves from two locations in the Canary Islands and Australia.

The first telescope of its kind will hunt for sources of gravitational waves

By Tereza Pultarova published

GOTO telescope will be the first to hunt for colliding black holes and neutron stars in a bid to find sources of gravitational waves.

illustration of black hole and neutron star merging

LIGO resumes work in 2023 and will catch gravitational wave signals fainter than ever

By Robert Lea published

Following two years of upgrades, the Laser Interferometer Gravitational-Wave Observatory (LIGO) is almost ready for its next operating run, which is set to begin in March 2023.

Two black holes surrounded by yellow rings spiral into each other

A black hole formed by a lopsided merger may have gone rogue

By Robert Lea published

Astronomers have spotted the first evidence of a merger event that gave a black hole a kick that left it traveling at around 3 million mph — fast enough for it to escape its host galaxy.

An artist's depiction of binary black holes.

Overlooked gravitational wave signals point to 'exotic' black hole scenarios

By Stefanie Waldek published

In a new analysis of their gravitational wave data, scientists with the international LIGO-Virgo Collaboration have discovered 10 new examples of merging binary black holes.