Over the past decade, scientists have detected a puzzling phenomenon: radio pulses coming from within our Milky Way galaxy that would pulse every two hours, like a cosmic heartbeat. The long radio ...

A team of astronomers have made a fascinating discovery that forces us to rethink our understanding of how dead stars behave. Using the powerful Low Frequency Array (LOFAR) radio telescope in the ...

Researchers determined the radio pulses came from angles around 30 degrees below Antarctica's surface, which the laws of physics theoretically prohibit. Calculations suggest the signals had to ...

Mountains, sub-glacial lakes, hidden valleys, even remnants of lost civilisations: what lies under Antarctica's vast ...

The unusual radio pulses were detected by the Antarctic Impulsive Transient Antenna (ANITA) experiment, a range of instruments flown on balloons high above Antarctica that are designed to detect ...

Astronomers had previously linked such long radio pulses only to neutron stars. However, a new study suggests for the first time that they can also originate from the movement of stars bound together ...

An international team of astronomers has performed multiwavelength observations of a gamma-ray binary system known as HESS ...

"The radio waves that we detected nearly a decade ago were at really steep angles, like 30 degrees below the surface of the ice," said PSU’s Stephanie Wissel, who was part of the NASA ANITA team.

STRANGE radio pulses detected roughly 25 miles (40km) above Antarctica could be the mark of a new cosmic particle, according to a new study. This rare signal was first detected by the Antarctic Imp… ...

Canadian and U.S. astronomers says radio pulses from deep space captured by a BC telescope could be used to measure universe's expansion rate.

But the confusing radio signals are "most likely not representing neutrinos," Wissel said. Existing models, she explained, predict that pulses caused by neutrinos would originate from angles very ...