May 19, 2022

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Scaled ‘shadows’ of two supermassive black holes in the process of collision

Simulation of Supermassive Black Hole Merger

In this simulation of a supermassive black hole merger, the blue-shifted black hole closest to the viewer inflates the red-shifted black hole in the background through a gravitational lens. The researchers detected an apparent dip in brightness as the nearest black hole passed in front of its counterpart’s shadow, an observation that can be used to measure the size of black holes and test alternative theories of gravity. Credit: Jordi Davilar

In the process of merging supermassive black holes, a new way to measure the vacuum

Scientists have discovered a way to quantify the ‘shadows’ of two supermassive black holes in the process of colliding, giving astronomers a potential new tool for measuring black holes in distant galaxies and testing alternative gravitational theories.

Three years ago, the world was stunned by the first image of a black hole. A black hole out of nowhere surrounded by a ring of fiery light. That iconic image of[{” attribute=””>black hole at the center of galaxy Messier 87 came into focus thanks to the Event Horizon Telescope (EHT), a global network of synchronized radio dishes acting as one giant telescope.

Now, a pair of Columbia researchers have devised a potentially easier way of gazing into the abyss. Outlined in complementary research studies in Physical Review Letters and Physical Review D, their imaging technique could allow astronomers to study black holes smaller than M87’s, a monster with a mass of 6.5 billion suns, harbored in galaxies more distant than M87, which at 55 million light-years away, is still relatively close to our own Milky Way.


Simulation of gravitational lenses in a pair of supermassive compact black holes. Credit: Jordi Devalar

This technique has only two requirements. First, you need a pair of supermassive black holes in the midst of a merger. Second, you should look at the pair at roughly a side angle. From this side view, when one black hole passes in front of the other, you should be able to see a bright flash of light as the glowing ring of the black hole is magnified away by the black hole closest to you, a phenomenon known as gravitational lensing.

The effect of the lens is well known, but what the researchers discovered here was a subtle signal: a characteristic drop in brightness corresponding to the “shadow” of the black hole in the background. This subtle dimming can last from a few hours to a few days, depending on the size of the black holes and how entangled their orbits are. If you measure how long the drop lasts, the researchers say, you can estimate the size and shape of the shadow created by a black hole’s event horizon, the point of no exit, where nothing escapes, not even light.

Supermassive black hole merger simulation

In this simulation of a pair of supermassive compact black holes, the black hole closest to the viewer gets closer and thus appears blue (Box 1), inflating the red-shifted black hole behind through a gravitational lensing. As the nearest black hole amplifies the black hole’s light further away (Box 2), the viewer sees a bright flash of light. But when the nearest black hole passes in front of an abyss or the shadow of the farthest black hole, the viewer sees a slight decrease in brightness (Box 3). This decrease in brightness (3) is clearly visible in the light curve data below the images. Credit: Jordi Devalar

“It took years and tremendous effort by dozens of scientists to make that high-resolution image of M87 black holes,” said the study’s first author, Jordi Davilar, a postdoc at Columbia and the Flatiron Center for Computational Astrophysics. “This approach only works with the largest and closest black holes – the pair at the core of M87 and possibly our Milky Way.”

He added, “With our method, you measure the brightness of black holes over time, and you don’t need to spatially resolve each object. It should be possible to find this signal in many galaxies.”

The black hole’s shadow is its most mysterious and instructive feature. “That dark spot tells us about the size of the black hole, the shape of spacetime around it, and how matter falls into the black hole near its horizon,” said co-author Zoltan Haiman, a professor of physics at Columbia University.

Observing a supermassive black hole merger

When a supermassive black hole merger is observed from the side, the black hole closest to the viewer enlarges the black hole further away by the effect of a gravitational lens. The researchers detected a short dip in brightness corresponding to the “shadow” of the distant black hole, allowing the viewer to gauge its size. Credit: Nicoletta Barolwini

The shadows of a black hole may hide the secret of the true nature of gravity, one of the fundamental forces of our universe. Einstein’s theory of gravity, known as general relativity, predicts the size of black holes. Therefore, physicists have sought them out to test alternative theories of gravity in an effort to reconcile two competing ideas of how nature works: Einstein’s general relativity, which explains large-scale phenomena such as planetary rotation and an expanding universe, and quantum physics, which explains how small particles such as Electrons and photons occupy multiple states simultaneously.

Researchers became interested in igniting supermassive black holes next Foreman A suspected pair of supermassive black holes at the center of a distant galaxy in the early universe.[{” attribute=””>NASA’s planet-hunting Kepler space telescope was scanning for the tiny dips in brightness corresponding to a planet passing in front of its host star. Instead, Kepler ended up detecting the flares of what Haiman and his colleagues claim are a pair of merging black holes.

They named the distant galaxy “Spikey” for the spikes in brightness triggered by its suspected black holes magnifying each other on each full rotation via the lensing effect. To learn more about the flare, Haiman built a model with his postdoc, Davelaar.

They were confused, however, when their simulated pair of black holes produced an unexpected, but periodic, dip in brightness each time one orbited in front of the other. At first, they thought it was a coding mistake. But further checking led them to trust the signal.

As they looked for a physical mechanism to explain it, they realized that each dip in brightness closely matched the time it took for the black hole closest to the viewer to pass in front of the shadow of the black hole in the back.

The researchers are currently looking for other telescope data to try and confirm the dip they saw in the Kepler data to verify that Spikey is, in fact, harboring a pair of merging black holes. If it all checks out, the technique could be applied to a handful of other suspected pairs of merging supermassive black holes among the 150 or so that have been spotted so far and are awaiting confirmation.

As more powerful telescopes come online in the coming years, other opportunities may arise. The Vera Rubin Observatory, set to open this year, has its sights on more than 100 million supermassive black holes. Further black hole scouting will be possible when NASA’s gravitational wave detector, LISA, is launched into space in 2030.

“Even if only a tiny fraction of these black hole binaries has the right conditions to measure our proposed effect, we could find many of these black hole dips,” Davelaar said.

References:

“Self-Lensing Flares from Black Hole Binaries: Observing Black Hole Shadows via Light Curve Tomography” by Jordy Davelaar and Zoltán Haiman, 9 May 2022, Physical Review Letters.
DOI: 10.1103/PhysRevLett.128.191101

“Self-lensing flares from black hole binaries: General-relativistic ray tracing of black hole binaries” by Jordy Davelaar and Zoltán Haiman, 9 May 2022, Physical Review D.
DOI: 10.1103/PhysRevD.105.103010

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