This butterfly shaped nebula is the perfect target for the James Webb Space Telescope to learn more about star formation.

Trained on the spectacular Flame Nebula, the Hubble and James Webb Space Telescopes went hunting for the smallest stars in ...

A weak magnetic field likely attracted matter inward, contributing to the formation of the outer planetary bodies, from ...

"The goal of this project was to explore the fundamental low-mass limit of the star and brown dwarf formation process." ...

Feb. 27, 2025 — Perovskite solar cells could last ten times longer thanks to new research, which suggests alumina nanoparticles significantly enhance the lifespan and stability of these high ...

The discovery that inert helium can form bonds with iron may reshape our understanding of Earth’s history. Researchers from ...

Our Solar System is in motion and cruises at about 200 kilometres per second relative to the center of the Milky Way.

Astronomers used the powerful James Webb Space Telescope to sleuth out some of these objects, called brown dwarfs, in a vibrant star-forming region of our galaxy called the Flame Nebula. Brown dwarfs ...

Unistellar, a French company, exclusively makes smart telescopes and has been selling them since 2020. The Odyssey Pro and ...

Millions of years ago, our Solar System traveled through a densely populated galactic region and was exposed to increased interstellar dust.

Iron can form compounds with helium at pressures as low as 5GPa – about 50,000 atmospheres – researchers in Japan report.

NASA’s James Webb Space Telescope (JWST) has captured detailed images of Lynds 483 (L483), a star-forming region located 650 ...