Astronomers have employed the Australia Telescope Compact Array (ATCA) to investigate a peculiar pulsar wind nebula known as ...

Astronomers combined Hubble's small-scale details of stellar death with Euclid's wide view of cosmic environments to take a ...

As binary neutron stars spiral around each other to merge, their gravitational tidal forces distort each other's shape and structure, potentially revealing clues as to what lies within them.

SR University in Warangal hosted the National Level Project Expo 2K26-Pragathi, bringing together young innovators from 23 ...

"We found a collision within a collision. The galaxy collision triggered a wave of star formation that, over hundreds of millions of years, led to the birth and eventual collision of these neutron ...

Some of the most extreme explosions in the universe are Type I superluminous supernovae. “They are one of the brightest ...

A distant supernova appears multiple times in the sky after its light bends through a galaxy. The strange effect may reveal clues about dark energy.

A groundbreaking study in galactic archaeology proves the Sun made a treacherous journey to reach its current home in the ...

Their formation has been an object of debate, but new observations confirm the lead hypothesis: they are the product of incredibly bright supernovae. The rest of this article is behind a paywall.

The final dance of a black hole and a neutron star before their ultimate merger has been revealed, according to new research.

The mystery of superluminous supernovae has finally been solved, as researchers have conclusively linked these cosmic phenomena to magnetars.

Astronomers have witnessed the birth of a rapidly spinning, highly magnetized neutron star or "magnetar" for the first time. The observation of this event, triggered by the death ...