This artist's concept shows a supermassive black hole
surrounded by a disk of gas. Embedded in this disk are two smaller black holes
that may have merged together to form a new black hole.
When two black holes spiral around each other and
ultimately collide, they send out gravitational waves - ripples in space and
time that can be detected with extremely sensitive instruments on Earth. Since
black holes and black hole mergers are completely dark, these events are
invisible to telescopes and other light-detecting instruments used by
astronomers. However, theorists have come up with ideas about how a black hole merger
could produce a light signal by causing nearby material to radiate.
Now, scientists using Caltech's Zwicky Transient
Facility (ZTF) located at Palomar Observatory near San Diego may have spotted
what could be just such a scenario. If confirmed, it would be the first known
light flare from a pair of colliding black holes.
The merger was identified on May 21, 2019, by two
gravitational wave detectors – the National Science Foundation's Laser
Interferometer Gravitational-wave Observatory, or LIGO, and the European
Virgo detector – in an event called GW190521g. That detection allowed the
ZTF scientists to look for light signals from the location where the
gravitational wave signal originated. These gravitational wave detectors have
also spotted mergers between dense cosmic objects called neutron stars, and
astronomers have identified light emissions from those collisions.
Learn more: What Is a Black Hole?
Black Hole Image Makes History; NASA Telescopes
Coordinated Observations
Image
Credit: Caltech/R. Hurt (IPAC)
Source: https://www.nasa.gov/image-feature/black-hole-collision-may-have-exploded-with-light
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