A groundbreaking study reveals that the Universe can't be a simulation, challenging a century-old quest for a unified theory of physics. Discover the implications of this radical new understanding!
A groundbreaking study unveils how sub-Neptune exoplanets generate water from their rocky cores and hydrogen atmospheres, challenging previous theories about their formation. This discovery opens up new possibilities for understanding planetary diversity and the potential for life beyond Earth.
Scientists have discovered two pairs of merging black holes, revealing that the larger ones are rare 'second-generation' black holes formed from previous collisions. This groundbreaking finding sheds light on the universe's dense environments and validates Einstein's theories.
A groundbreaking study from UBC Okanagan shows that our universe cannot be simulated, disproving long-held theories about reality being a computer program. Discover the fascinating findings that reveal the true nature of existence.
Groundbreaking observations of gravitational waves GW241011 and GW241110 reveal unprecedented black hole mergers, challenging existing theories and hinting at a more complex universe than previously thought.
Exciting new findings from the James Webb Space Telescope reveal five complex carbon-based molecules in the ice around a protostar in the Large Magellanic Cloud, shedding light on the origins of life in the universe.
Scientists have detected two newborn black holes formed from the merger of their parent black holes, revealing groundbreaking insights into the universe and fundamental physics.
Recent findings from the LIGO-Virgo-KAGRA Collaboration reveal two groundbreaking gravitational wave events tied to unusual black hole spins, deepening our understanding of the universe's mysterious phenomena.
Astronomers have achieved record-breaking image resolution using a single telescope and a photonic lantern, revealing unprecedented details of a distant star's hydrogen disc. This breakthrough challenges traditional imaging methods and opens new avenues for astronomical research.
A Cornell physicist's groundbreaking study suggests that the universe is on track for a 'big crunch' in 20 billion years, reversing its expansion and collapsing back into a singularity. This new conclusion challenges long-held beliefs about the cosmos' fate.
