In the distant Universe a supermassive black hole eats a sun *a day*

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Artist drawing of a blazar, a galaxy with a supermassive black hole spewing out energy. Credit: DESY, Science Communication Lab

 

In the distant Universe a supermassive black hole eats a sun *a day*

Astronomers have found the most massive known black hole in the very early Universe, and it’s a whopper: It has 34 billion — yes, billion, with a b — times the mass of the Sun.

 

And that’s only one part of this story that has the hair on the back of my neck standing up. Stick around for the rest. I promise, it’s hair-stand-uppable.

 

The black hole is in the center of an active galaxy called a quasar. These are where the central supermassive black hole (which every big galaxy has) is actively eating material.

 

This stuff piles up into a disk around the black hole, swirling madly around it. Matter that's closer in moves very near the speed of light, and stuff farther out is slower, and as they

 

rub together they generate friction, which heats the disk up a lot (imagine rubbing your hands together at the speed of light to see why). The temperature is so high, and there’s

 

so much matter in the disk, that it glows incredibly brightly, in general outshining all the stars in the galaxy combined.

 

The quasar in question is called SMSS J215728.21–360215.1. Let’s call it J2157 for short. The astronomers found it looking at sky surveys for objects with the right colors to be very

 

very far away active galaxies, and this one was found in the SkyMapper Southern Survey (hence the SMSS in the name; the rest is for its coordinates on the sky).

 

The quasar SMSS J215728.21–360215.1 hosts the most massive black hole known in the very early Universe. It may not look like much, but it’s 12.5 billion light years away, and

 

blasts out energy a thousand times our entire galaxy. Credit: DSS2 / Aladin

 

Once they determined it was likely to be a distant quasar, they observed it with the monster 10-meter Keck telescope in Hawaii and the 8-meter Very Large Telescope in Chile. By

 

breaking the light up this way a lot of important information can be found, including how far away the quasar is, how bright it is overall, how massive that black hole is, and how

 

much matter falls into it from the disk.

 

The quasar is crushingly far away: The light we see from it left it more than 12.5 billion years ago, just 1.25 billion years after the Big Bang itself. So we see this quasar as it was

 

when it was very young.

 

The mass of the black hole is 34±6 billion times the mass of the Sun. For comparison, the supermassive black hole in the center of the Milky Way is about 4 million solar masses,

 

so the one anchoring J2157 is over 8,000 times as massive.

 

!!!

 

There are whole galaxies with less mass than just this one black hole. It’s so big that if you replaced the Sun with it, it would encompass the entire solar system — it’s roughly 200

 

billion kilometers across. That’s… huge.

 

Artwork depicting a black hole with an accretion disk, and magnetic fields swirling above it. Credit: NASA/JPL-Caltech

 

I’ll note that several more massive black holes have been found, but these are in galaxies closer to us than J2157. This one, though, is the most massive ever found at this

 

distance range from us, at this early of a period in the Universe.

 

But we’re not done! Measuring the brightness of the object and knowing its distance allows the total energy emitted by the quasar to be found. It’s 1.6 x 10⁴¹ Joules/second. Are

 

you sitting down for this next bit? That is one quadrillion times the amount of light the Sun emits.

 

One quadrillion. 1,000,000,000,000,000. Our entire Milky Way galaxy emits a fraction of a percent that much light. This makes J2157 the most luminous known quasar.

 

The physics is a bit complicated, but it’s also possible to estimate out how much matter is falling into the black hole to generate that much energy: It turns out to be about the

 

mass of the Sun every day.

 

I ran the numbers and got the same answer. Even so it’s hard to grasp. In more local terms, that black hole is gobbling down the equivalent of the mass of the Earth four times

 

per second.

 

Wow. Imagine tossing planets into a black hole that rapidly. That’s hundreds of thousands of times per day. Or, if you prefer, a hundred million times per year.

 

So, how’s that neck hair? Piloerected yet?

 

 

Everything about this object is overwhelming. But there’s real scientific value here. This being the biggest known black hole at this early an age in the Universe is a solid constraint

 

on our understanding of how they grow. Did it get to this size by starting off big and eating rapidly, or starting off smaller and eating really rapidly? Did a bunch of smaller black

 

holes form together and then merge to make its rapid growth? Is there some other weird thing going on here we haven’t thought of yet?

 

We know that the amount of light emitted by the disk increases with the mass of the black hole, and this one seems to fit that pattern. That means as weird as it is, it’s normal

 

compared to other supermassive black holes, except for being even more supermassiver. That’s oddly reassuring, assuming you’re comfortable with supermassive black holes in

 

the first place.

 

At this distance, it’s also telling us about conditions in the very early Universe, when galaxies were first getting started. We still don’t know a whole lot about this era, and every

 

example we get is a piece of that puzzle we can examine.

 

In this case, a ridiculously massive, bright, and vastly gluttonous one.

 

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and it’s a whopper: It has 34 billion — yes, billion, with a b — times the mass of the Sun.

My mind is blown... 

[flash13]

Hungriest Black Hole in the Universe Gobbles Up One Sun Per Day

Photo: Getty Images/Science Photo Libra

 

How many suns do you think you could eat per day, if challenged? To make it more interesting, let’s say the prize was $50,000 for whoever could eat the most suns. Now that you

 

have incentive, what do you think? One sun, or fewer? If your answer is fewer, well, I hate to tell you that you’ve already been beaten.

 

In 2018, a team of scientists from the Research School of Astronomy and Astrophysics at the Australian National University discovered the fastest-growing supermassive black

 

hole in the known universe, called J2157. This week, the same team released new research explaining exactly how massive the hole actually is as well as how much it eats to

 

sustain its growth. The answer may shock you.

 

According to a press release about the research, the black hole is 34 billion times the mass of our sun and about 8,000 times bigger than the black hole at the center of the Milky

 

Way. Research team member Dr. Christopher Onken explained it like this: “If the Milky Way’s black hole wanted to grow that fat, it would have to swallow two-thirds of all the

 

stars in our galaxy.” Damn.

 

Researcher Dr. Fuyan Bian said they were tipped off to the black hole’s impressive mass back in 2018, when they noticed its rate of growth. “How much black holes can swallow

 

depends on how much mass they already have,” he said. “So for this one to be devouring matter at such a high rate, we thought it could become a new record holder. And now

 

we know.”

And exactly how much can this black hole devour, you’re wondering? According to the release, the hole “gorges on nearly the equivalent of one sun every day.” The hole puts you

 

to shame, it’s true. But please do not feel sad. I have faith that you too can one day eat a sun. Life is about challenging yourself, after all. It’s about growth.

 

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