Astronomers Just Detected Matter Falling Into A Black Hole At 1/3 The Speed Of Light

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A UK team has observed the first detection of matter falling into a supermassive black hole at a speed nearing 90,000 kilometers (56,000) miles per second, which is strangely, only about 30 percent the speed of light.

Reported in the Monthly Notices of the Royal Astronomical Society, a team of researchers have used X-ray observations to track material movement at the center of a black hole. The black hole in question is at the center of galaxy PG1211+143. Using the XMM-Newton they were able to detect an “earth-sized” ball of matter accelerating at 1/3 the speed of light.

In a statement lead author Professor Ken Pound, from the University of Leicester, says “The galaxy we were observing with XMM-Newton has a 40 million solar mass black hole, which is very bright and evidently well fed.

Indeed some 15 years ago we detected a powerful wind indicating the hole was being over-fed. While such winds are now found in many active galaxies, PG1211+143 has now yielded another ‘first’, with the detection of matter plunging directly into the hole itself.

We were able to follow an Earth-sized clump of matter for about a day, as it was pulled towards the black hole, accelerating to a third of the velocity of light before being swallowed up by the hole.”

The team also discovered an unexpected characteristic of the system. The material accreting around the black hole is misaligned from the black hole’s rotation. And that’s where things get interesting.

Supermassive black holes are so heavy that they don’t just bend space-time they also drag it as they rotate. This phenomenon, known as frame dragging, ends up breaking the disk into individual rings.

Collisions between these rings are not infrequent and when they happen, matter falls directly into the black hole instead of slowly spiraling down. This “direct” route forces materials to accelerate to the incredible velocity witnessed in this study.

Researchers suggest that this chaotic accretion might be the norm rather than the exception and many black holes do it, especially the ones rotating more slowly. By accreting gas from many directions, these black holes could increase their mass rapidly.

This might potentially explain how the first black holes got so big so quickly in the early universe.

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