Astronomers have traced mysterious radio pulses to a white dwarf star closely orbiting a red dwarf star. The stellar pair, located 1,600 light-years from Earth, completes an orbit every 125.5 minutes.

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 ...

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 ...

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 ...

The mystery object, located just a short 15,000 light-years from Earth in our Milky Way galaxy, was spotted emitting unusual pulses.

A powerful and mysterious blast of radio waves that astronomers believed was a fast radio burst (FRB) from far beyond the ...

The objects, which emit radio pulses occurring minutes or hours apart, ... The team discovered the object, known as ASKAP J1832-0911, in the Milky Way by using a radio telescope in Australia.

Astronomers have traced mysterious radio pulses to a white dwarf star closely orbiting a red dwarf star. The stellar pair, located 1,600 light-years from Earth, completes an orbit every 125.5 minutes.

(CNN) — 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 ...

Over the past decade, scientists have detected a puzzling phenomenon: radio pulses coming from within our Milky Way galaxy ...

To solve the Milky Way mystery, de Ruiter devised a method to identify radio pulses lasting seconds to minutes within the archives of the Low-Frequency Array telescope, or LOFAR, a network of ...

To solve the Milky Way mystery, de Ruiter devised a method to identify radio pulses lasting seconds to minutes within the archives of the Low-Frequency Array telescope, or LOFAR, a network of ...