Skip to main content

Hubble identifies a 10-billion-year-old pair of quasars in merging galaxies

Astronomers have discovered two pairs of quasars in the distant Universe, about 10 billion light-years from Earth. In each pair, the two quasars are separated by only about 10,000 light-years, making them closer together than any other double quasars found so far away. The proximity of the quasars in each pair suggests that they are located within two merging galaxies. Quasars are the intensely bright cores of distant galaxies, powered by the feeding frenzies of supermassive black holes. One of the distant double quasars is depicted in this illustration.
Astronomers have discovered two pairs of quasars in the distant Universe, about 10 billion light-years from Earth. In each pair, the two quasars are separated by only about 10,000 light-years, making them closer together than any other double quasars found so far away. The proximity of the quasars in each pair suggests that they are located within two merging galaxies. Quasars are the intensely bright cores of distant galaxies, powered by the feeding frenzies of supermassive black holes. One of the distant double quasars is depicted in this illustration. International Gemini Observatory/NOIRLab/NSF/AURA/J. da Silva

When galaxies get close enough together, they can collide in epic events which can destroy one or lead to the two merging into a larger galaxy. And sometimes, on very rare occasions, the two galaxies might both include a quasar — an extremely bright galactic core formed around a supermassive black hole, so luminous it can shine brighter than the entire rest of the galaxy.

Now, a new study has identified not one but two pairs of quasars in galaxies that are merging. By studying these two pairs, which are extremely far away and are thus around 10 billion years old, astronomers can learn more about how galaxies and their supermassive black holes merge.

“We estimate that in the distant Universe, for every one thousand quasars, there is one double quasar. So finding these double quasars is like finding a needle in a haystack,” said Yue Shen of the University of Illinois at Urbana-Champaign, lead author of the paper, in a statement.

Astronomers believe that quasars were more common around 10 billion years ago, and there were many galactic mergers happening. That means it’s more likely to find pairs of quasars from this particular period.

“This truly is the first sample of dual quasars at the peak epoch of galaxy formation with which we can use to probe ideas about how supermassive black holes come together to eventually form a binary,” said research team member Nadia Zakamska of Johns Hopkins University.

The researchers discovered the pairs of quasars using the instruments including Hubble Space Telescope and the Gaia space observatory. The quasar pairs are so close together they appear to be one object until the researchers looked closer using Hubble.

Now astronomers will be able to use these pairs to learn more about the formation of galaxies. “Quasars make a profound impact on galaxy formation in the universe,” Zakamska said. “Finding dual quasars at this early epoch is important because we can now test our long-standing ideas of how black holes and their host galaxies evolve together.”

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
Zoom into stunning James Webb image to see a galaxy formed 13.4 billion years ago
A section of a James Webb image showing a small part of the Extended Groth Strip, located between the Ursa Major and Boötes constellations.

One of the amazing things about the James Webb Space Telescope is the level of detail it is able to capture of very distant objects -- but it can be hard to picture what that means when the distances being considered are so large. Now, a new visualization gives a feel of just how detailed the data from the telescope is, by showing how it's possible to start with a stunning view of thousands of galaxies and zoom closer and closer in until you reach just one.

CEERS: Flight to Maisie's Galaxy

Read more
Hubble image of the week shows an unusual jellyfish galaxy
The jellyfish galaxy JO206 trails across this image from the NASA/ESA Hubble Space Telescope, showcasing a colorful star-forming disk surrounded by a pale, luminous cloud of dust. A handful of foreground bright stars with crisscross diffraction spikes stands out against an inky black backdrop at the bottom of the image. JO206 lies over 700 million light-years from Earth in the constellation Aquarius.

This week's image from the Hubble Space Telescope shows an unusual type of galaxy named for its aquatic look-alike: a jellyfish.

The jellyfish galaxy JO206 is shown below in an image taken using Hubble's Wide Field Camera 3 instrument. Located 700 million light-years away, in the constellation of Aquarius, this image of the galaxy shows both the bright center of the galaxy and its long tendrils reaching out toward the bottom right. It is these tendrils that give jellyfish galaxies their names, and they are formed through a process called ram pressure stripping.

Read more
James Webb captures a stunning image of two galaxies merging
Shining like a brilliant beacon amidst a sea of galaxies, Arp 220 lights up the night sky in this view from NASA’s James Webb Space Telescope. Actually two spiral galaxies in the process of merging, Arp 220 glows brightest in infrared light, making it an ideal target for Webb. It is an ultra-luminous infrared galaxy (ULIRG) with a luminosity of more than a trillion suns. In comparison, our Milky Way galaxy has a much more modest luminosity of about ten billion suns.

The James Webb Space Telescope has captured a gorgeous image of a dramatic cosmic event: two galaxies colliding. The two spiral galaxies are in the process of merging, and are glowing brightly in the infrared wavelength in which James Webb operates, shining with the light of more than a trillion suns.

It is not uncommon for two (or more) galaxies to collide and merge, but the two pictured in this image are giving off particularly bright infrared light. The pair has a combined name, Arp 220, as they appear as a single object when viewed from Earth. Known as an ultraluminous infrared galaxy (ULIRG), Arp 220 glows far more brightly than a typical spiral galaxy like our Milky Way.

Read more