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Science

Black Holes Could Get So Humongous, Astronomers Came Up With a New Size Category

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There are supermassive black holes. There are ultramassive black holes. How large can these strange objects grow? Well, there could be something even bigger than ultramassive: stupendously large black holes, according to the latest research.

 

Such hypothetical black holes – larger than 100 billion times the mass of the Sun – have been explored in a new paper which names them SLABs, an acronym that stands for “Stupendously LArge Black holeS”.

“We already know that black holes exist over a vast range of masses, with a supermassive black hole of 4 million solar masses residing at the centre of our own galaxy,” explained astronomer Bernard Carr of Queen Mary University London.

“Whilst there isn’t currently evidence for the existence of SLABs, it’s conceivable that they could exist and they might also reside outside galaxies in intergalactic space, with interesting observational consequences.”

Black holes have only a few somewhat broad mass categories. There are stellar-mass black holes; those are black holes that are around the mass of a star, up to around 100 solar masses. The next category up is intermediate mass black holes, and how large they get seems to depend on who you talk to. Some say 1,000 solar masses, some say 100,000, and others say 1 million; whatever the upper limit is, these seem to be pretty rare.

 

Supermassive black holes (SMBHs) are much, much larger, on the order of millions to billions of solar masses. These include the SMBH at the heart of the Milky Way, Sagittarius A*, at 4 million solar masses, and the most photogenic SMBH in the Universe, M87*, at 6.5 billion solar masses.

The chonkiest black holes we’ve detected are ultramassive, more than 10 billion (but less than 100 billion) solar masses. These include an absolute beast clocking in at 40 billion solar masses in the centre of a galaxy named Holmberg 15A.

“However, surprisingly, the idea of SLABs has largely been neglected until now,” Carr said.

“We’ve proposed options for how these SLABs might form, and hope that our work will begin to motivate discussions amongst the community.”

The thing is, scientists don’t quite know how really big black holes form and grow. One possibility is that they form in their host galaxy, then grow bigger and bigger by slurping up a whole lot of stars and gas and dust, and collisions with other black holes when galaxies merge.

This model has an upper limit of around 50 billion solar masses – that’s the limit at which the object’s prodigious mass would require an accretion disc so massive it would fragment under its own gravity. But there’s also a significant problem: Supermassive black holes have been found in the early Universe at masses too high to have grown by this relatively slow process in the time since the Big Bang.

 

Another possibility is something called primordial black holes, first proposed in 1966. The theory goes that the varying density of the early Universe could have produced pockets so dense, they collapsed into black holes. These would not be subject to the size constraints of black holes from collapsed stars, and could be extremely small or, well, stupendously large.

The extremely small ones, if they ever existed, would probably have evaporated due to Hawking radiation by now. But the much, much larger ones could have survived.

So, based on the primordial black hole model, the team calculated exactly how stupendously large these black holes could be, between 100 billion and 1 quintillion (that’s 18 zeroes) solar masses.

The purpose of the paper, the researchers said, was to consider the effect of such black holes on the space around them. We may not be able to see SLABs directly – black holes that aren’t accreting material are invisible, since light cannot escape their gravity – but massive invisible objects can still be detected based on the way space around them behaves.

Gravity, for instance, curves space-time, which causes the light travelling through those regions to also follow a curved path; this is called a gravitational lens, and the effect could be used to detect SLABs in intergalactic space, the team said.

The huge objects also would have implications for the detection of dark matter, the invisible mass that’s injecting way more gravity into the Universe than there should be – based on what we can actually directly detect.

One hypothetical dark matter candidate, weakly interacting massive particles (WIMPs), would accumulate in the region around a SLAB due to the immense gravity, in such concentrations that they would collide with and annihilate each other, creating a gamma-radiation halo.

And primordial black holes are themselves a dark matter candidate, too.

“SLABs themselves could not provide the dark matter,” Carr said. “But if they exist at all, it would have important implications for the early Universe and would make it plausible that lighter primordial black holes might do so.”

Also, we couldn’t resist calculating the size of a 1 quintillion solar mass black hole. The event horizon would end up over 620,000 light-years across. Uh. Stupendous.

The team’s research has been published in the Monthly Notices of the Royal Astronomical Society.

 

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US

Body cam video shows police officer’s fatal shooting of a Black man during a mental health check

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Officer Reynaldo Contreras arrived at the home of Patrick Warren on January 10 after Warren’s family called for psychiatric help.

The police department said in a statement that, upon the officer’s arrival, Warren was “emotionally distressed,” and newly released body camera footage shows the tense moments that led to Contreras firing his weapon at Warren three times.

In the video, Contreras can be seen letting himself into the home after he is told by someone inside to “come on in.” Contreras quickly exits after Warren begins to yell and advance towards him.

Warren can be seen outside a residence advancing toward the officer in the front yard and ignoring verbal commands for him to lie down. After the officer steps backward and continues to issue warnings, like “You’re gonna get tased,” he uses his taser.

Warren initially falls down but then stands back up and continues to push toward the officer. Contreras uses the taser again, but Warren keeps advancing and Contreras deploys his firearm.

Warren, who was 52, was transported to a hospital and succumbed to his injures.

Family lawyer calls it ‘one of the worst officer-involved shootings that I’ve seen’

The family’s lawyer, Lee Merritt, has called for the officer to be fired. “This is one of the worst officer-involved shootings that I’ve seen,” Merritt told reporters earlier this week after the body camera footage was released, according to KWTX.

Merritt did not return calls from CNN Thursday and Friday after the footage was released.

Contreras, a five-year veteran of the department, is on administrative leave, according to the Killeen Police Department. An investigation is underway by the Texas Rangers, according to the Texas Department of Public Safety.

Bell County District Attorney Henry Garza directed all inquiries to the Texas Rangers.

Police Chief Charles Kimble said this week that Contreras did everything he could to use non-lethal force against Warren before he deployed his firearm.

“I don’t see where he could have done anything else. I saw an officer try to handle a call, de-escalate a call,” Kimble told reporters on Tuesday.

“Given the same set of circumstances, I just don’t know what else we could do,” he added.

Kimble said Contreras had more than the minimum amount of mandated training, but he said the police department was looking at ways to better address psychiatric calls.

On Saturday, January 9, one day before the shooting, the county sent a mental health deputy to Warren’s house. Merritt previously told CNN that the meeting with the county deputy went well. Warren voluntarily went with that deputy to the hospital that night but declined to stay at the hospital for further treatment.

When the family called for another mental health check the next day, a police officer was dispatched. According to Merritt, the family wanted a mental health deputy again, rather than a police officer.

Asked why a police officer was deployed on Sunday, Kimble said the call taker raised concerns about what they heard on the call from the family.

“It was a call for a psychiatric person,” Kimble said. “But as the call taker was listening to the caller, if certain things are said, or certain things are heard, then it prompts a different response…It prompted a police response, and it prompted a response from fire and medics who were standing by.”

CNN has reached out to the Killeen Police Employee Association for comment but has not yet heard back.

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Science

New physics theory postulates the existence of SLABs: Stupendously Large Black Holes

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At the center of the Milky Way lies the biggest object we can be sure exists: a supermassive black hole (SMBH) four million times more massive than the sun.

Physicists believe these huge singularities can reach even greater sizes if they’ve eaten a big enough galaxy. The biggest estimates are somewhere in the range of 10 billion times more massive than our sun, but things begin to top out shortly after that. At least, that’s the conventional wisdom.

A new study from a trio of European researchers recently unveiled a grander theory involving the formation of black holes. They say, under the right conditions, black holes could become so massive the only way to describe their size would be stupendously large.

[Read: How this company leveraged AI to become the Netflix of Finland]

Dubbed SLABs (stupendously large black holes) these hypothetical cosmic entities could be unimaginably bigger than their measly supermassive counterparts due to having an entirely different makeup.

Where SMBHs become large by devouring dying stars and/or merging with other black holes, SLABs are thought to be primordial and thus would predate the formation of stars and galaxies.

Per a university press release:

As ‘primordial’ black holes don’t form from a collapsing star, they could have a wide range of masses, including very small and stupendously large ones.

[Project lead] Professor Bernard Carr said: “We already know that black holes exist over a vast range of masses, with a SMBH of four million solar masses residing at the center of our own galaxy. Whilst there isn’t currently evidence for the existence of SLABs, it’s conceivable that they could exist and they might also reside outside galaxies in intergalactic space.

Quick take: The existence of innumerable primordial black holes scattered through the darkness of space ranging from tiny to unfathomably big is pretty cool, but the real selling point here is what finding them could tell us about dark matter.

We can’t prove dark matter exists because we haven’t found any yet, but we’re pretty sure the vast majority of the universe is made up of it. Black holes are thought by many scientists to be closely related to dark matter due to the way they handle gravity.

Tracking down and observing SLABs could serve to fill in some of the mystery surrounding the universe’s origin and, with proper correlation to other hypothetical types of black hole, finally point us to humankind’s first measurable observation of dark matter in the universe’s background.

You can read the team’s research paper here.

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