"Even today, our understanding of star formation is still developing; comprehending how stars formed in the earlier universe is even more challenging." ...

JWST captured this dazzling display of flaring activity from the supermassive black hole at the center of our Milky Way.

Researchers have found that stars in the early universe may have formed from 'fluffy' molecular clouds. Using the ALMA telescope to observe the Small Magellanic Cloud -- whose environment is similar ...

The Hubble Space Telescope captured the ​​colorful, wispy clouds near the Tarantula Nebula, one of the most luminous and active star-forming regions in our galactic backyard.

Between spotting galaxies that shouldn't exist, capturing the interstellar medium with unprecedented clarity, and identifying ...

Explore the astonishing findings from the Webb Telescope on the restless black hole Sagittarius A* at the Milky Way's center.

Arizona's dark skies are a haven for astronomers and photographers. Some communities are fighting to keep them that way.

The supermassive black hole in the heart of the Milky Way Galaxy, Sagittarius A*, constantly emits flares like fireworks.

Astronomers using the JWST have observed Sagittarius A* continuously flaring, reshaping our understanding of black holes.

Stars are born in dense molecular clouds, but did they always form this way? Recent research suggests that in the early ...

Sgr A* possesses roughly 4 million times the mass of our sun and is located about 26,000 light-years from Earth. A light-year ...

Astronomer Yusef-Zadeh explained that flares are expected in all supermassive black holes, but Sagittarius A is unique.