Central antennas of the Australia Square Kilometre Array Pathfinder.
We still don't know what causes these mysterious Fast Radio Bursts deep in the universe, but we've detected a whole new batch of them.
HIRAX prototype dishes at Hartebeesthoek Astronomy Observatory near Johannesburg.
By sharing a location with the SKA, HIRAX will be able to conduct science in “radio-clear” skies across its wide frequency range.
ASKAP at night.
It used to take weeks to find any of these mysterious signals from deep in space but when the new telescope started looking it found one within days. Then another.
Artist’s impressiong of the Square Kilometre Array, which will revolutionise our ability to detect fast radio bursts.
SKA Project Development Office and Swinburne Astronomy Productions - Swinburne Astronomy Productions for SKA Project Development Office
A technological revolution in astronomical observations could be the key to understanding the perplexing phenonenon known as 'fast radio bursts' from outer space.
Scientists knew the mystery signals were close by the Parkes radio telescope: but what was the source?
Astronomers used to probing the universe always knew that strange signals detected by the Parkes radio telescope were coming from somewhere closer to home. But finding the source was the tricky bit.
A fast radio burst was detected live at Parkes in May 2014.
Astronomers are trying to improve their hunt for rapid bursts of radio emission in the universe called Fast Radio Bursts (FRBs) so they can better observe these mysterious events, which are thought to…
Artist’s composite of the CSIRO’s 64m Parkes Radio Telescope showing an extragalactic radio burst appearing briefly, far from the Milky Way’s disk.
CSIRO/Harvard/Swinburne Astronomy Productions
How many electrons are there in the universe? That may seem nigh on impossible to calculate – let alone comprehend – but the discovery of a new population of astrophysical events called Fast Radio Bursts…