NEW YORK. A groundbreaking study of distant, ancient galaxies suggests that dark energy, the mysterious force believed to drive the universe’s accelerating expansion, may not behave as previously thought. This revelation could reshape our understanding of the cosmos, scientists say.
Dark energy, theorized to constitute nearly 70% of the universe, has long puzzled astronomers. It is thought to act as a powerful, constant force pushing galaxies apart at an accelerating rate. However, new findings by an international research collaboration involving over 900 scientists indicate that this force may not be constant after all.
The research, conducted using the Dark Energy Spectroscopic Instrument (DESI) — a telescope in Tucson, Arizona — maps the universe’s 11-billion-year history, analyzing how galaxies have clustered over time and space. Surprisingly, the data suggests that the behavior of dark energy does not align with existing cosmological models. Instead, it appears to be changing or weakening over time.
“I did not think that such a result would happen in my lifetime,” said Mustapha Ishak-Boushaki, a cosmologist at the University of Texas at Dallas and a member of the research team.
This finding, if confirmed, would challenge the standard cosmological model, which has successfully explained much of the universe’s behavior. It might even point to the existence of forces or phenomena that scientists have yet to understand.
“It’s a time of great excitement, and also some head-scratching and confusion,” noted Bhuvnesh Jain, a cosmologist at the University of Pennsylvania, who is not involved in the research.
The collaboration’s work aligns with an older theory: that the universe’s expansion and the clustering of galaxies follow predictions made by Einstein’s general relativity. But the implications of this are not yet definitive.
“The significance of this result right now is tantalizing,” said Robert Caldwell, a physicist at Dartmouth College, “but it’s not like a gold-plated measurement.”
Astronomers caution that more data is needed to validate these findings. Observations from other telescopes and future analyses will be critical in determining whether dark energy behaves as currently theorized or if the universe holds even more profound mysteries.
Understanding dark energy is crucial, as it governs the universe’s fate. If dark energy is constant, the universe will continue to expand, growing colder and emptier. But if it grows stronger, it could lead to what scientists call the Big Rip, a scenario where the universe’s rapid expansion tears everything apart.
“Not to panic. If this is what’s going on, it won’t happen for billions of years,” assured astrophysicist David Spergel, president of the Simons Foundation. “But we’d like to know about it.”
The collaboration’s findings mark a significant step in unraveling one of the universe’s greatest enigmas — a mystery that may redefine how we see the cosmos.
Gary P Hernal started college at UP Diliman and received his BA in Economics from San Sebastian College, Manila, and Masters in Information Systems Management from Keller Graduate School of Management of DeVry University in Oak Brook, IL. He has 25 years of copy editing and management experience at Thomson West, a subsidiary of Thomson Reuters.
