Laser Interferometer Gravitational-Wave Observatory (LIGO) in Washington and Louisiana simultaneously last September. After numerous consistency checks, the resulting 5-sigma discovery was published today. The measured gravitational waves match those expected from two large black holes merging after a death spiral in a distant galaxy, with the resulting new black hole momentarily vibrating in a rapid ringdown. A phenomenon predicted by Einstein, the historic discovery confirms a cornerstone of humanity's understanding of gravity and basic physics. It is also the most direct detection of black holes ever. The featured illustration depicts the two merging black holes with the signal strength of the two detectors over 0.3 seconds superimposed across the bottom. Expected future detections by Advanced LIGO and other gravitational wave detectors may not only confirm the spectacular nature of this measurement but hold tremendous promise of giving humanity a new way to see and explore our universe.
NASA Web Site Statements, Warnings, and Disclaimers
NASA Official: Jay Norris. Specific rights apply.
A service of: LHEA at NASA / GSFC
& Michigan Tech. U.
Based on Astronomy Picture Of the Day
Publications with keywords: LIGO - gravitational radiation
Publications with words: LIGO - gravitational radiation
- Ninety Gravitational Wave Spectrograms and Counting
- GW200115: Simulation of a Black Hole Merging with a Neutron Star
- When Black Holes Collide
- Fifty Gravitational Wave Events Illustrated
- GW190521: Unexpected Black Holes Collide
- Unusual Signal Suggests Neutron Star Destroyed by Black Hole
- Simulation: Two Black Holes Merge