A recent study utilizing the Five-hundred-meter Aperture Spherical radio Telescope (FAST) has confirmed the "radio-quiet" ...

Small stars that are far away tend to be faint and hard to see. De Ruiter and her colleagues used the Multiple Mirror ...

A blast of radio waves from the outskirts of an ancient galaxy challenges theories about what creates such bursts.

Most of them flare just once, randomly, making them impossible to predict, and very difficult to trace back to a source. Some ...

Magnetars are neutron stars that possess the strongest magnetic fields in the Universe. These enormously dense objects are at the heart of extreme events like hypernovae, rapid radio bursts ...

Rather, they could be from an unusual object called a magnetar. Magnetars are highly-dense stars with powerful magnetic fields. Whatever the reason, FRBs are proof there's still so much more to ...

First, these observations irrevocably blur the line between rotation-powered pulsars and magnetars. Although two transient magnetars recently discovered during X-ray outbursts may yet, in ...

The explanations of these events remain elusive because they could start from magnetars or advanced extraterrestrial devices. Research into FRBs becomes complex because these bursts either repeat in ...

Seismic vibrations on Earth contain information about the structure of our planet, seismic vibrations on distant stellar remnants could shed light not only on the star itself but also on the basic ...