Innew research, we have for the first time tracked a fast radio burst back to its source: a common kind of lightweight star ...

Fast radio bursts originate near neutron stars, revealing their magnetically chaotic environments and scintillation patterns.

It was first revealed by a gravitational wave detector that taps into a multitude of rapidly spinning neutron stars, or "pulsars," and a precise time-keeping instrument called a pulsar timing ...

Every galaxy has a supermassive black hole at its center, much like every egg has a yolk. But sometimes, hens lay eggs with ...

Recent discoveries reveal that bursts of slow pulsing radio waves originate from a binary star system consisting of a red ...

A new effort to map the rumblings in spacetime caused by enormous black hole collisions paints a surprisingly loud and ...

An international team of astronomers has reported the discovery of a new pulsar, which received the designation PSR ...

The Pulsar S 130 is a new metre-tall floorstander from T+A: a 3-way bass-reflex loudspeaker – made in Germany – that features ...

As the cosmic gravitation waves ripple past a pulsar, its observed timing changes slightly. The shift isn't large enough to observe with an individual pulsar, but it is large enough that a ...

MeerKAT’s Pulsar Timing Array has revealed a surprising gravitational wave background, offering new insights into cosmic events.