The European Space Agency’s (ESA) Euclid Space Telescope has just revealed new evidence for the existence of more than two-and-a-half dozen objects that are among the oldest and most remote in the universe.
These 31 massive objects, known as quasars, rank among the oldest objects astronomers have ever seen, including two that are believed to originate from a period in the universe when our cosmos was only 5% of its current age.
The discoveries, revealed in a new study appearing in the journal Astronomy & Astrophysics, provide a remarkable look at the earliest generations of galaxies, as well as a rare look at the dynamics of the ancient black holes that once powered them.
Quasar Questions
As some of the brightest objects anywhere in our universe, quasars are remote objects resembling stars in appearance that emit unprecedented amounts of energy. They are the result of creation processes that involve enormous quantities of gas and dust, which spiral into supermassive black holes.
During the gravity-driven inward acceleration process, immense friction causes temperatures that can reach millions of degrees, which generates large amounts of energy. The resulting celestial features produce enough light to outshine entire galaxies.
Despite their brightness, the 31 newest additions to our growing collection of known quasars were difficult for astronomers to spot, given their extreme distances from Earth. The light that documents their ancient presence in the universe has traveled more than 13 billion years to make its way here, causing it to be extremely faint, and thereby very difficult to distinguish from surrounding stars whose light normally outshines them with ease.
Rotating Quasars from the Early Universe
A dozen of the newly discovered collection of quasars date to within the first 770 million years our universe existed. Add to that the fact that two of the ancient objects are believed to have formed just 670 million years after the Big Bang—at such ages, these quasars are among the oldest astronomers have ever observed.
The weight of the discoveries goes beyond just record-breaking astronomical observations, since the data they provide could help astrophysicists unravel some of the most enduring mysteries of cosmology. For instance, these quasars could help to reveal answers to questions about how supermassive black holes grew so quickly while the universe was still in its infancy.
Additionally, studying these energetic ancient giants could help to provide new insights into the formation of the earliest galaxies and the evolution of the universe while it was still in its relative infancy.
Answering Questions About the Cosmos
The recent research, led by the ESA and with contributions from its partners at NASA, has helped to place the Euclid mission in an ideal place to carry out its mission of mapping billions of galaxies. Doing so may help scientists uncover clues about the questions surrounding mysterious dark energy, which is widely believed to be the force behind the accelerating expansion of the cosmos.
Additionally, the Euclid mission’s findings could be pivotal in helping shape the future work of NASA’s Nancy Grace Roman Space Telescope, which will continue the quest to unravel the nature of dark energy and help astronomers understand the nature of the universe at large scales. Additional details about the recent quasar discoveries by Euclid can be found at the ESA’s website and on NASA’s FAQ page.
The new findings were detailed in a recent study, “Euclid: Discovery of 31 new quasars at 6.6 < z < 7.8” published in Astronomy and Astrophysics.
Micah Hanks is the Editor-in-Chief and Co-Founder of The Debrief. A longtime reporter on science, defense, and technology with a focus on space and astronomy, he can be reached at micah@thedebrief.org. Follow him on X @MicahHanks, and at micahhanks.com.
