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Astronomers just discovered some of the most primordial and extreme objects in the universe
Adam Kovac · 2026-07-07 · via Scientific American Content: Global

Probing the dawn of the cosmos for clues to how the first galaxies and supermassive black holes formed is no easy feat

This artist’s concept shows a quasar, which is a galaxy with large quantities of material spiralling into its central supermassive black hole. Extreme gravitational and frictional forces heat the material to millions of degrees, generating more light than all the stars in the galaxy combined.

This artist’s concept shows a quasar, which is a galaxy with large quantities of material spiralling into its central supermassive black hole. Extreme gravitational and frictional forces heat the material to millions of degrees, generating more light than all the stars in the galaxy combined.

ESA

At the heart of many galaxies lie supermassive blackholes. These engines power quasars—active galactic nuclei that emit some of the brightest light astronomers can possibly see in the sky. How these extreme objects formed in the earliest years of the universe—when the cosmos was less than a billion years old—has long been something of a mystery.

But now, the European Space Agency's Euclid Space Telescope has identified a clutch of primordial quasars, dating to some 13 billion years ago—putting them among the oldest of these objects ever found in the universe.

Ancient quasars offer glimpses into the universe in its chaotic infancy; but actually finding these primordial objects can be very difficult. Because they formed so long ago, they are extremely far away from Earth, which can cause their bright light to be mistaken for a signal of a more run-of-the-mill celestial object.


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Quasars from the earliest era of the cosmos are among the rarest known objects in the universe, and they emit light at a specific energy band that tends to elude ground-based telescopes.

From its vantage point in space, just shy of a million miles from Earth, the Euclid telescope has a unique view, said Eduardo Bañados, an astronomer at Max Planck Institute for Astronomy and co-lead of the Euclid Quasar Work Package from 2022 to 2025. He is also a co-author on a new study detailing the findings.

“Seeing Euclid deliver on its potential is immensely satisfying,” said Bańados in a statement. “But more than that, it marks a genuine shift: For the first time, we can study the typical early-universe quasar, not just exceptional outliers. We now have a real window onto how the bulk of the first black holes grew — and how they shaped the galaxies around them.”

Euclid is equipped with cameras that can see both visible light and light in the near-infrared range. Beginning in February 2024, the team began a six-year project called the Euclid Wide Survey, with the aim of mapping a swath of extragalactic space. When it is complete, it will have mapped about a third of the sky. Just two years in, the survey has now revealed 31 ancient quasars from the dawn of the universe. The findings were published on Monday in Astronomy & Astrophysics.

Incredibly, 12 of the quasars Euclid has found date to the first 770 million years of the universe, while another two appear to have formed when the universe was just 670 million years old. That makes them almost as ancient as the oldest known galaxies.

There could be even older quasars still out there. In the new study, the team observe that both the Hubble and James Webb Space Telescope have equipment that’s sensitive enough to possibly detect even fainter emissions than Euclid.

“These objects provide the best clues for understanding how supermassive black holes form,” said study co-author Joseph Hennawi, a physics professor with joint appointments at the University of California, Santa Barbara and Leiden University in Germany, in a statement. Future research—and looking further into the universe's past—could offer more clues, he added.

“Every step further back in time makes the puzzle more perplexing: How did the Universe produce supermassive black holes so quickly?” Hennawi said. “We're finding black holes with hundreds of millions of times the mass of our sun at a time when the universe was barely getting started.”

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