gaeln (gaeln) wrote,

Two Black Holes Merge into One

One hundred years after Einstein predicted that gravitional waves would be creted with the interaction of two massive bodies, there is now direct confirmation. So very cool as is the simulation video below of the two colliiding black holes 1.3 billion years ago from Caltech Ligo.

I include the following little list from BBC News online because it's a nice quick summary

  • Gravitational waves are prediction of the Theory of General Relativity

  • Their existence has been inferred by science but only now directly detected

  • They are ripples in the fabric of space and time produced by violent events

  • Accelerating masses will produce waves that propagate at the speed of light

  • Detectable sources ought to include merging black holes and neutron stars

  • Ligo fires lasers into long, L-shaped tunnels; the waves disturb the light

  • Detecting the waves opens up the Universe to completely new investigations

FROM: YouTube
Published on Feb 11, 2016

A computer simulation shows 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. LIGO detected gravitational waves, or ripples in space and time generated as the black holes spiraled in toward each other, collided, and merged. This simulation shows how the merger would appear to our eyes if we could somehow travel in a spaceship for a closer look. It was created by solving equations from Albert Einstein's general theory of relativity using the LIGO data.

The two merging black holes are each roughly 30 times the mass of the sun, with one slightly larger than the other. Time has been slowed down by a factor of about 100. The event took place 1.3 billion years ago.

Image credit: SXS
The stars appear warped due to the incredibly strong gravity of the black holes. The black holes warp space and time, and this causes light from the stars to curve around the black holes in a process called gravitational lensing. The ring around the black holes, known as an Einstein ring, arises from the light of all the stars in a small region behind the holes, where gravitational lensing has smeared their images into a ring.

The gravitational waves themselves would not be seen by a human near the black holes and so do not show in this video, with one important exception. The gravitational waves that are traveling outward toward the small region behind the black holes disturb that region’s stellar images in the Einstein ring, causing them to slosh around, even long after the collision. The gravitational waves traveling in other directions cause weaker, and shorter-lived sloshing, everywhere outside the ring.

This simulation was created by the multi-university SXS (Simulating eXtreme Spacetimes) project. For more information, visit

Tags: science, video
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