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Astronomie - A Strange Streak Of Young Stars Is Evidence Of A Runaway Supermassive Black Hole, Study Finds

10.04.2023

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A HUBBLE SPACE TELESCOPE IMAGE OF A NEVER-BEFORE-SEEN 200,000 LIGHT-YEAR LONG TRAIL OF NEWBORN STARS WITH TWICE THE DIAMETER OF OUR MILKY WAY GALAXY. THIS STREAK IS LIKELY A WAKE BEHIND A FLEEING SUPERMASSIVE BLACK HOLE, ASTRONOMERS SAY.
Credit: NASA, ESA, P. van Dokkum (Yale), J. DePasquale (STScI)

Maunakea, Hawaiʻi Astronomers have spotted a candidate supermassive black hole running away from its home galaxy, hurtling through space at a velocity of about 4 million miles per hour for the past 39 million years.

A Yale University-led team using NASA’s Hubble Space Telescope and W. M. Keck Observatory on Maunakea in Hawaiʻi discovered an unusual, very thin, almost straight streak of young stars and shocked gas – possibly the trail the black hole left behind as it escaped.

The findings are outlined in a study published in today’s issue of The Astrophysical Journal Letters.

“Something like this has never been seen anywhere in the universe,” said Pieter van Dokkum, professor of astronomy and physics at Yale University and lead author of the study. “We’ve known for a long time that supermassive black holes exist and it had been predicted for about 50 years that they could sometimes be ejected from galaxies. If confirmed, this would be the first evidence of a runaway supermassive black hole, proving this prediction.”

Van Dokkum’s team first detected the long feature with NASA’s Hubble Space Telescope. To get a closer look, they conducted follow-up observations using Keck Observatory’s Low Resolution Imaging Spectrometer (LRIS) and Near Infrared Echellette Spectrograph (NIRES).

The Keck Observatory data revealed the streak of stars measured a remarkable 200,000 light-years in length and extended from a compact, active star-forming galaxy whose light took about 7.6 billion years to reach Earth. The trail is almost half as bright as the host galaxy it is linked to, indicating it contains an abundance of new stars.

“We think we’re seeing a wake behind the black hole where the gas cools and is able to form stars. So, we’re looking at star formation trailing the black hole,” said van Dokkum. “What we’re seeing is the aftermath. Like the wake behind a ship, we’re seeing the wake behind the black hole.”

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An artist’s impression of a runaway supermassive black hole that was ejected from its host galaxy as a result of a tussle between it and two other black holes. As the black hole plows through intergalactic space, it compresses tenuous gas in front of it. This precipitates the birth of hot blue stars. This illustration is based on Hubble Space Telescope observations of a 200,000-light-year-long “contrail” of stars behind an escaping black hole. Credit: NASA, ESA, Leah Hustak (STScI)

Keck Observatory also showed a bright knot of ionized gas at the top of the wake – likely the site of the black hole itself. Also, the linear feature’s home galaxy appears to be missing a black hole at its center, or at least does not have one that is actively feasting on material and generating powerful jets of energy that telescopes can detect.

If the narrow wake of stars and gas was indeed created by a black hole dislodged from its home galaxy, astronomers have a likely explanation for its origin story. First, two galaxies, both containing a supermassive black hole inside their cores, merge. Next, as the black holes whiz around each other in a binary dance at the center of the newly- merged galaxy, a third supermassive black hole inside another galaxy intrudes on the couple. The trio’s interaction with one another then creates an unstable situation that generates enough velocity to torpedo one of the three black holes out.

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A panel showing sections of spectra captured with W. M. Keck Observatory’s LRIS instrument, revealing the unusual linear feature extended from a galaxy whose light took about 7.6 billion years to reach Earth. Credit: V. Dokkum (Yale)/W. M. Keck Observatory

As a next step, van Dokkum and his team are now seeking to confirm whether their discovery is in fact a runaway black hole; they’ve applied for time on NASA’s James Webb Space Telescope and Chandra X-ray Observatory to conduct follow-up observations.

Because the linear streak of newborn stars and shocked gas is so striking, van Dokkum says it should be straightforward to find other objects like it in current and future data, such as with NASA’s upcoming Nancy Grace Roman Space Telescope.

“Much of what we do is hypothesis testing, or refining previous measurements, but sometimes there is this bolt out of the blue of a completely unanticipated discovery. That is rare, but it is the best!” said van Dokkum. 

“Going from noticing the streak and thinking ʻhey that’s weird’ to this paper was so incredibly fun and satisfying as we were all learning every step of the way,” said co-author Imad Pasha, a Yale University graduate student on van Dokkum’s research team.  

Quelle: W. M. Keck Observatory

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