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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.
Astronomers have found a way to pinpoint our solar system's center of mass to within a mere 330 feet (100 meters), a recent study reports.
Quantum effects are pushing us around all the time, and we now have observational evidence of this somewhat disconcerting fact.
It's right there in the name: black holes aren't supposed to produce flashes of light. But scientists think that last year, they spotted black holes doing just that.
Astrophysicists have spotted the strangest gravitational-wave signal yet, an observation that could force scientists to rewrite what they know about the cosmos.
Using gravitational waves to approximate pi, physicists see no problem with Einstein's theory of general relativity.
A collision between a black hole and a neutron star would unleash huge amounts of energy, but it might not generate any detectable light, a surprising new study finds.
For the second time ever, the Laser Interferometer Gravitational-Wave Observatory (LIGO) has spotted two ultradense stellar remnants known as neutron stars violently crashing together.
As the 2010s come to a close, it's time to revisit how some of the biggest space science stories shaped the decade.
Scientists are on the verge of being able to detect the "memory" left behind by gravitational waves.
Gravitational-wave astronomy may help researchers paint a more complete picture of black hole activity.
Scientists recently spotted a gold-and-platinum factory in space called a "kilonova," or an epic explosion that likely happened when two dense stars collided with each other.
The largest physics detector on Earth hunts gravitational waves. But it needs to be really, really quiet to find them.
Most of the universe's gold, uranium and other heavy elements are generated from rapidly whirling collapsing stars, a new study finds.
Upcoming gravitational-wave observatories both on Earth and in space could soon help solve some of the greatest mysteries in science.