New research indicates that matter ejected during the supernova death of a star can fall back to neutrons stars, giving rise ...

Scientists have uncovered the long-sought mechanism behind low-field magnetars, showing that supernova fallback material ...

A research team at the , Academia Sinica (ASIAA) has achieved groundbreaking insights into the physics of supernova shockwaves. Using the powerful Kawas computing cluster at ASIAA, the team conducted ...

A newly released Hubble pic shows the galaxy LEDA 22057, where the supernova explosion occurred. The spiral galaxy's swirling mass centers around an oval-shaped core region with a white glow that ...

Astronomers from Turkey and Japan have performed optical observations of a recently discovered nearby supernova remnant known ...

For now the core driver of supernova explosions remains a mystery. Researchers suspect the answer involves neutrinos, nearly massless particles that tend to pass through matter unimpeded.

Young supernovas could have spread water out into the cosmos, causing planet formations earlier than originally thought.

"The high explosion energy of AT 2023adsv could indicate that the properties of supernova explosions might have been different in the early universe." Supernovas in the early universe just hit ...

An international team of scientists has modeled the formation and evolution of the strongest magnetic fields in the universe.

A recent study suggests that supernova explosions, triggered by the death of early stars, could have created significant amounts of water just 100 million years after the Big Bang. Simulations of ...

LEDA 22057 is the site of a supernova explosion, named SN 2024PI, which is visible in this image: located just down and to the right of the galactic nucleus. . | Credit: ESA/Hubble & NASA ...