Astronomers have found the most distant black hole yet, CAPERS-LRD-z9, weighing 300 million solar masses just 500 million years after the Big Bang. This discovery sheds light on ancient celestial objects and pushes the boundaries of cosmic exploration.
A groundbreaking study reveals 300 unexpectedly bright cosmic objects that may reshape our understanding of galaxy formation in the early universe, as captured by NASA's JWST.
Scientists using the James Webb Space Telescope have discovered CAPERS-LRD-z9, the earliest confirmed black hole, dating back over 13 billion years. This groundbreaking find sheds light on the early universe, challenging existing theories of black hole evolution.
Astronomers have identified the earliest confirmed black hole, a colossal entity 300 million times the size of our sun, offering insights into the universe's origins. This groundbreaking discovery pushes the boundaries of our understanding of cosmic history.
The James Webb Space Telescope has made a stunning breakthrough, uncovering 2,500 more galaxies in a familiar patch of sky. This latest mid-infrared survey reveals ancient cosmic structures dating back to the universe's dawn.
A newly discovered supermassive black hole, J1601+3102, from just 1.2 billion years post-Big Bang is erupting with jets of plasma longer than the Milky Way, challenging our understanding of galaxy evolution.
Astronomers have released the largest map of the early universe, revealing nearly 800,000 galaxies thanks to the James Webb Space Telescope. This groundbreaking discovery provides insights into cosmic evolution and the universe's earliest structures.
A groundbreaking study reveals that faint dwarf galaxies, rather than massive black holes, were pivotal in igniting the cosmic dawn. This research shifts our understanding of the early Universe's evolution.
New research reveals that tiny dwarf galaxies played a pivotal role in lighting up the early Universe, surprising scientists who expected larger galaxies to be the key players. This groundbreaking discovery could reshape our understanding of cosmic history.
A groundbreaking study from Dartmouth researchers proposes a new theory on dark matter's origin, suggesting it formed from massless particles in the early universe. This could change our understanding of cosmic structure!
