giant
black hole is thought to lurk at the center of the Milky Way, but it
has never been directly seen. Now astronomers have predicted what the
first pictures of this black hole will look like when taken with
technology soon to be available.
Kamruddin
and Dexter have matched this data to various physical models and found
that they best fit images that are crescent-shaped, rather than the blob
shapes called "asymmetric Gaussians" that had been previously used in
models.
In particular, researchers have found that pictures of a black hole ?
or, more precisely, the boundaries around them ? will take a crescent
form, rather than the blobby shape that is often predicted.
By modeling what these pictures will look like, scientists say they are
preparing to interpret the photos that will become available from
telescopes currently under construction.
"No one has been able to image a black hole," said University of
California, Berkeley student Ayman Bin Kamruddin, who presented a poster
on the research last week in Long Beach, Calif., at the 221st meeting
of the American Astronomical Society. "So far it's been impossible
because they're too small in the sky. Right now we're just getting some
details about the structure, but we don't have an image yet." [Gallery:
Black Holes of the Universe]
Black holes themselves are invisible, of course, as not even light can
escape their gravitational clutches. However, the boundary of a black
hole — the point of no return called the event horizon — should be visible from the radiation emitted by matter falling into the black hole.
"A black hole's immediate surroundings have a lot of really interesting
physics going on, and they emit light," Kamruddin said. "Technically
speaking, we aren't exactly seeing the black hole, but we are
effectively resolving the event horizon."
A new project called the Event Horizon Telescope combines the resolving
power of numerous antennas from a worldwide network of radio telescopes
to sight objects that otherwise would be too tiny to make out.
"The Event Horizon Telescope is the first to resolve spatial scales
comparable to the size of the event horizon of a black hole," said
Kamruddin's collaborator, University of California, Berkeley astronomer
Jason Dexter. "I don't think it's crazy to think we might get an image
in the next five years."
The Event Horizon Telescope already has been gathering some preliminary
measurements of the object called Sagittarius A* (pronounced
"Sagittarius A-star") at the center of our Milky Way galaxy.
Kamruddin
and Dexter have matched this data to various physical models and found
that they best fit images that are crescent-shaped, rather than the blob
shapes called "asymmetric Gaussians" that had been previously used in
models.
The crescent shape emerges from the flat doughnut, called an accretion
disk, formed by matter orbiting a black hole on its way to falling in.
As gas spins around the black hole, one side of the disk comes toward
view on Earth, and its light becomes brighter because of a process
called Doppler beaming. The other side, representing receding gas, gets
dimmer because of this effect.
In the center of the crescent is a dark circle called the black hole
shadow, which represents the black hole itself — an incredibly dense
object where space-time is extremely twisted.
"There's really extreme bending of light happening because of general
relativity and the extremely strong gravitational field," Kamruddin
said.
Knowing that the crescent model best fits the data allows the
researchers to discriminate between different models describing the
physics around the black hole.
Ultimately, the astronomers hope to use the first photos of Sagittarius
A* to accurately weigh the behemoth at the center of the Milky Way.
"Just getting an image itself will be mind-blowing," Kamruddin said. "It
will provide direct confirmation of the event horizon, which has been
predicted, but no one's ever actually seen it. Seeing what it is like
will rule out certain physics."
Follow Clara Moskowitz on Twitter @ClaraMoskowitz or SPACE.com @Spacedotcom. We're also on Facebook & Google+.
- No Escape: Dive Into a Black Hole (Infographic)
- Black Hole Quiz: How Well Do You Know Nature's Weirdest Creations?
- The Strangest Black Holes in the Universe
Copyright 2013 SPACE.com, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.
0 comments:
Post a Comment