Breaking 20:45 Trump claims Iranian vessels would be barred from Strait of Hormuz transit 20:20 Rubio vows to weaken International Criminal Court amid renewed U.S. campaign 19:53 FIFA offers authenticated 2026 World Cup final pitch memorabilia for collectors 19:33 Moroccan-American referee Ismail Elfath appointed for Argentina vs. England World Cup semi-final 16:58 Apple warns iPhone users about rising FaceTime scam attempts 11:38 United States restricts air travel from DR Congo amid Ebola outbreak 11:24 Legionnaires' disease outbreak in New York sickens 60 as investigation expands 11:01 Trump clean energy policies trigger $83 billion setback in U.S. projects 10:57 Morocco and United States launch plans for African multidomain training center in Tan-Tan 10:46 BMW recalls more than 29,000 US vehicles over potential fire hazard 10:45 Morocco and the United States sign agreement to establish joint African military training center 10:15 Subaru recalls more than 541,000 vehicles in the US over certification label error 10:01 Samsung weighs potential US ADR listing as global capital market options expand 10:00 Meta expands AI ambitions with data center investment exceeding $50 billion 09:46 Trump to deliver televised address to the nation amid rising tensions with Iran 09:01 US immigration enforcement faces renewed scrutiny after fatal ICE shooting in Maine 07:58 Anthropic adds built-in web browser to Claude Code for seamless developer workflows 07:45 Iran targets US base in Jordan as regional tensions intensify and oil prices climb

Dark energy study challenges the universe’s standard model

Tuesday 16 December 2025 - 11:50
By: Dakir Madiha
Dark energy study challenges the universe’s standard model

The long-accepted understanding of dark energy, the mysterious force believed to drive the universe’s accelerating expansion, is facing renewed scrutiny after an international research team proposed that it may not be constant over time. Data from the Dark Energy Spectroscopic Instrument (DESI), which analyzed over 15 million galaxies and quasars, show unexpected variations that deviate from what cosmologists have long considered a cornerstone of modern astrophysics.

Scientists at the University of California, Santa Cruz, reported that their findings could indicate that dark energy evolves differently than previously assumed, suggesting gaps in the standard cosmological model. Their analysis points to subtle shifts in the expansion rate of the universe, appearing inconsistent with the idea of a static, unchanging force.

According to the research team, the results expose tensions between observations of the early and late universe, echoing the well-known “Hubble tension”—a longstanding discrepancy in how fast the cosmos is expanding. While the Big Bang theory remains the dominant framework explaining the origin and evolution of the universe, new data challenge the precision of the parameters on which it relies.

Astrophysicist Adam Riess of Johns Hopkins University noted that these results are testing the limits of models used for the past 25 years. He emphasized that as data from advanced instruments like DESI and the James Webb Space Telescope accumulate, scientists may need to refine or expand current cosmological theories to fully understand how the universe behaves on the largest scales.

 


  • Fajr
  • Sunrise
  • Dhuhr
  • Asr
  • Maghrib
  • Isha

This website, walaw.press, uses cookies to provide you with a good browsing experience and to continuously improve our services. By continuing to browse this site, you agree to the use of these cookies.