Astronomers have found a monster black hole from the early universe growing at an astonishing rate, challenging existing theories of black hole formation and growth.
New images of black hole M87* reveal dramatic changes in its magnetic fields, challenging our understanding of these cosmic giants. Discover the latest findings and what they mean for astrophysics!
Scientists have made groundbreaking discoveries about the supermassive black hole M87*, revealing unexpected changes in its magnetic fields and jets. These findings challenge existing theories and provide new insights into black hole physics. Stay tuned for the upcoming Astronomy & Astrophysics paper detailing these revelations!
A new MIT study suggests that the highest-energy neutrino ever detected might originate from an exploding primordial black hole. This discovery could illuminate the nature of dark matter and the universe's origins.
In a groundbreaking discovery, scientists have measured the recoil velocity from a black hole collision for the first time, revealing a newborn black hole shooting through space at over 31 miles per second.
In a groundbreaking study, scientists have measured the recoil of a newly formed black hole after a collision, revealing speeds over 50 km/s. This new method provides crucial insights into black hole mergers and their dynamics.
New data reveals the interstellar object 3I/ATLAS could be significantly larger than previously thought, challenging our understanding of cosmic bodies and their origins.
Ten years ago, physicists made history by detecting gravitational waves for the first time, confirming Einstein's theory. Discover how this monumental event reshaped our understanding of the universe and what it means for the future of astrophysics.
Ten years after the groundbreaking discovery of gravitational waves, physicists are gearing up for even more extraordinary findings. With plans for advanced detectors like the Cosmic Explorer, the universe's mysteries are set to unfold like never before!
Recent observations from LIGO provide compelling evidence supporting Stephen Hawking's area theorem, as two black holes merge, creating a larger black hole. This landmark achievement coincides with the 10-year anniversary of LIGO's first detection.
