We saw something like this before when the Event Horizon Telescope took images of the supermassive black hole in the center of the galaxy M87. Observations and theory match pretty well. The scientists did this calculation and found that they should expect to see about 5% of the light reflected in this manner. ![]() This effect can be modeled using the equations of General Relativity in principle you can see how light gets bent around a black hole in this manner. Light emitted from a disk around a black hole gets bent so much by the black hole’s gravity that it can be warped back down into the disk on the other side, illuminating it. The disk is literally illuminating itself! ![]() From there it's essentially reflected and travels away from the system. In this case what they found is that about 5% of the X-ray light emitted by the disk travels close enough to the black hole that it gets bent downward, back toward the disk on the other side. Light follows this bending of space as it travels (like a car on a road going over a hill), and by the time the light gets out and away from the system it may have come from a very different place than you'd expect. This gets complicated by the black hole itself, because black holes have such strong gravity that they severely warp space around them. This may be due to the disk being warped, like the brim of a hat, which is more obvious during flaring episodes.īut they could also use the models to see how much light they expected to see from the disk as well. Using very sophisticated physical models of the black hole and the disk, they were able to see quite a few effects, including changes in the shape and tilt of the disk during the flares. They wanted to see what effects the flares had on the disk by looking at how the timing and energy of the X-rays changed. Observations of the black hole showed that it underwent episodes of intense brightening called flares, possibly due to an uptick in the amount of material falling from the star onto the disk.Īlthough decommissioned in 2012, the observations from Rossi XTE are archived on Earth, and for this new research astronomers looked through the old data to investigate the black hole. The system was discovered in 1998 by the Rossi X-ray Timing Explorer, a satellite in Earth orbit that detected high-energy X-rays coming from objects in space. Credit: NASA’s Goddard Space Flight Center/Jeremy Schnittman This is hot enough to emit X-rays, a very energetic form of light.Ī simulation of what a black hole with a disk of gas swirling around it would look, given the bizarre effects of its fierce gravity on the light from the disk. The disk is incredibly hot, upwards of ten million degrees (!!), heated by friction as the matter swirls around the black hole. This material spirals toward the black hole and forms a disk around it called the accretion disk. ![]() The star is close enough that the intense gravity of the black hole is drawing matter of its surface. It's orbited by a star that's very roughly 10 million kilometers away from it it's not clear what kind of star it is but it's likely something with around the mass of the Sun or a little less. ![]() It has a mass of about 9 times the Sun's, so it's an average black hole in that respect. The black hole is called XTE J1550−564, and it's located about 14,000 light years away from Earth. And it's literal: Light emitted on one side of a disk around the black hole gets bent by the fierce gravity so much it travels back down to the disk on the other side, illuminating it, and gets reflected back up so we can see it. I would not, however, have thought to include black holes in that ability.īut it appears to be the case, at least for one such beast. I like to think that anyone is capable of some self-reflection.
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