In new images, scientists have gotten the closest look yet at Sagittarius C -- a 'stellar nursery' where clouds of gas and dust have collapsed to form thousands of new stars.

A new suggestion that complexity increases over time, not just in living organisms but in the nonliving world, promises to ...

Follow-up research on a 2023 image of the Sagittarius C stellar nursery in the heart of our Milky Way galaxy, captured by ...

Follow-up research on a 2023 image of the Sagittarius C stellar nursery in the heart of our Milky Way galaxy, captured by NASA's James Webb Space Telescope, has revealed ejections from still-forming ...

Researchers at the U.S. Department of Energy’s Princeton Plasma Physics Laboratory are harnessing the power of computers to ...

In new images, scientists have gotten the close look yet at Sagittarius C—a "stellar nursery" where clouds of gas and dust have collapsed to form thousands of new stars.

U.S. government scientists have developed a new phase of matter dubbed 'half ice, half fire,' which unites opposing electron ...

Whether a galactic environment has the right conditions for habitable planets to form could depend on how the black hole in ...

A twisting, whirling streamer of plasma escaping the sun in the aftermath of a coronal mass ejection (CME) has been captured ...

Our lives are surprisingly dependent upon this extremely light and unreactive gas, yet supplies of it are remarkably fragile.

Scientists have taken a big step toward understanding the tiny particles and forces that make up everything in the universe.

Experts have unveiled the most detailed images yet of the universe’s infancy, capturing light that traveled for more than 13 billion years.