The Universe is full of dust, and a striking new image from the Hubble Space Telescope highlights just how important it is.

How do you dust a star for prints? Scientists have the answer to this strange question: by reconstructing the magnetic field ...

These illuminated dust pockets help astronomers understand how stars interact with their surroundings, especially how dust ...

A deep-sea detector glimpsed a particle with 220 million billion electron volts of energy — around 20 times as energetic as any neutrino seen before.

“We [will be able to] move quickly and map out very large areas of the sky,” adds Josh Schlieder, the telescope’s wide-field ...

HH 30, a fascinating Herbig-Haro object, serves as a cosmic laboratory for studying star formation and planetary evolution.

Planets originate from protoplanetary disks, circulating disks of gas and dust that develop around young stars, a recent ...

Captured by the James Webb Space Telescope (JWST), this celestial spectacle, known as Herbig Haro 30 or HH 30, highlights a ...

Galactic mergers play a key role in the evolution of the universe, driving the growth of larger galaxies and the overall ...

James Webb Space Telescope captures HH 30’s disc, revealing dust movement, jets, and planetary formation processes.

HH 30 is a luminous region surrounding a newborn star, or protostar. The James Webb Space Telescope helped reveals unprecedented details of it.

Just as modern telescopes reveal the hidden structure of nebulae and star clusters, understanding the physics behind twilight ...