A NASA satellite that’s been orbiting as space junk since 1967, Relay 2, emitted an unexpected, powerful radio burst that astronomers initially struggled to explain.

A team of astronomers have made a fascinating discovery that forces us to rethink our understanding of how dead stars behave.

Curtin University researchers have undertaken the world's biggest survey of low-frequency satellite radio emissions, finding ...

Using the world's most advanced radio telescopes, astronomers have discovered a spinning dead star so rare, strange and ...

Australia's unfinished Square Kilometre Array telescope is at risk of having its sensitive space observations distorted by ...

A new study shows that, at its worst, the Starlink satellite network creates enough noise to hamstring radio astronomy.

FARSIDE: A Low Radio Frequency Interferometric Array on the Lunar Farside Dr. Jack Burns, University of Colorado Boulder, Principal Investigator Dr. Gregg Hallinan, California Institute of Technology, ...

FARSIDE: A Low Radio Frequency Interferometric Array on the Lunar Farside Dr. Jack Burns, University of Colorado Boulder, Principal Investigator Dr. Gregg Hallinan, California Institute of Technology, ...

Some 8 billion years later, radio waves from that burst reached Earth and were captured by a sophisticated low-frequency radio telescope in the Australian outback.

The Low Frequency Array (Lofar) is the world's most sensitive low-frequency telescope, operating from 10-250 MHz. It's composed of 52 radio telescopes with more on the way, spread across Europe.

LROC/ASU/NASA The Moon’s low gravity may also enable the construction of much larger telescopes than is feasible for free-flying satellites.