The existence and origin of fast radio bursts (FRBs) has been a hot topic in astronomy research in recent years. Now that we ...

The US National Science Foundation (NSF) National Radio Astronomy Observatory (NRAO) and the Karl G. Jansky Very Large Array ...

then the largest single-dish radio telescope in the world. It consisted of a series of binary digits, 0s and 1s, which ...

"Very little is known about what causes the formation of magnetars," researcher Kritti Sharma said. "Our work helps to answer this question." ...

Powerful electromagnetic radiation from an enormous radio telescope in Puerto Rico may have fast-tracked structural damage that led to the instrument's collapse in 2020, a new report says.

A scathing new report points to unclear protocols and multiple failures to raise alarms at the Arecibo Observatory in Puerto ...

The nearby bright star Vega is surrounded by a surprisingly smooth, 100 billion-mile-wide disk of cosmic dust, confirming ...

What is the origin of fast radio bursts (FRBs) and what can this teach us about the galaxies where they reside? This is what ...

Using the CHIME telescope, an international team of astronomers has detected a new repeating fast radio burst (FRBs) source ...

According to a study published in Nature, a research team led by Caltech has discovered massive star-forming galaxies, not low-mass ones, are the universe’s most likely locations for fast radio bursts ...

Astronomers have found a link between mysterious fast radio bursts and magnetars within massive star-forming galaxies.

Researchers have uncovered where FRBs are more likely to occur in the universe -- massive star-forming galaxies rather than low - mass ones.