Many LRDs exhibit a strong Balmer break, at an epoch starting just 600 million years after the Big Bang, 13.8 billion years ...

Using the James Webb Space Telescope, astronomers discovered an extreme version of "little red dots" dubbed "The Cliff." Its ...

Most cosmologists believe that these stars were the first large, free-floating structures to illuminate our universe, and ...

The James Webb Space Telescope does not observe things like a regular camera that we would have on our cell phones. Instead, ...

The James Webb Space Telescope has uncovered dazzling newborn stars and thick cosmic dust in Sagittarius B2, the Milky Way's ...

Stars across our galaxy are born in massive molecular clouds. Among them, Sagittarius B2 stands out as the largest, sitting ...

The galaxy’s heart hides a cosmic giant that shouldn’t exist so soon after the Big Bang but could explain the mysterious ...

A merger of galaxies and their supermassive black holes in the ZS7 system was spotted by the James Webb Space Telescope. The merger occurred when the Universe was about 740 million years old. Credit: ...

A maelstrom of star formation close to the center of our galaxy has been revealed in two different wavelengths by the James Webb Space Telescope (JWST), its beautiful images highlighting the intensity ...

Star formation is a fundamental physical process in our universe. Stars light up the cosmos, and give rise to planets, some ...

NASA has been studying little red dots that were spotted in the universe's infancy stage. They grew too fast, and too early.

Star formation in the Milky Way’s center is a paradox nowhere is it slower than around the supermassive black hole Sagittarius A*, but just a few hundred light-years distant, the Sagittarius B2 ...