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15 May 2018 News Release

New technology installed on CSIRO’s Parkes radio telescope today will let astronomers ‘hear’ a wider range of radio waves from objects in space, opening the way to new science.

The new equipment is a receiver, a ‘bionic ear’ for the cosmos which catches radio waves and turns them into electrical signals for astronomers to analyse.

The $2.5 million instrument was developed by CSIRO and a consortium of Australian universities led by Swinburne University of Technology, with funding from the Australian Research Council, Germany’s Max Planck Institute for Radioastronomy and the Chinese Academy of Sciences.

CSIRO and Swinburne each designed and built parts of the system.

“Stars and galaxies ‘sing’ with different voices, some high, some low,” CSIRO astronomer Dr George Hobbs said.

“It’s like a choir out there.”

A receiver determines which radio frequencies the telescope can hear.

“Until now we’ve had receivers that heard just one part of the choir at a time,” Dr Hobbs said.

“This new one lets us listen to the whole choir at once.”

The new receiver covers a very wide frequency range, 700 MHz to 4 GHz. It does the work of several existing receivers and also covers extra frequencies that they don’t.

Parkes has been continually upgraded throughout its lifetime and is already one of the world’s most productive radio telescopes.

The telescope is now 10,000 times more sensitive than when it was built in 1961 and has found most of the known pulsars and most of the ‘fast radio bursts’ that still mystify astronomers.

It also helped reveal the nature of bright sources called quasars and discovered a new spiral arm in our Galaxy.

"Most of the projects the new system will be used for are forefront astronomical science," Swinburne’s Professor Matthew Bailes, who led the university consortium, said.

Those projects include searching for gravitational waves from black holes in the early Universe, studying the insides of neutron stars, and mapping the magnetic fields that run through our Galaxy.

The new receiver will let the telescope do different projects at the same time.

“While some of us are timing a pulsar, other astronomers could be looking for the signs of newborn stars,” Dr Hobbs said.

“The expertise built up in these technologies will enable Australia to compete effectively into the era of the Square Kilometre Array, the world’s largest radio telescope.”

Swinburne engineers designed the data processor for the Parkes receiver using experience gained through work for the Square Kilometre Array.

CSIRO is a world leader in receiver design. CSIRO and engineers from the Chinese Academy of Sciences recently worked together to develop a receiver for China’s Five-hundred-meter Aperture Spherical radio Telescope (FAST). In addition, the Parkes telescope is following up radio sources detected with FAST.

Watch Stargazing Live on ABC TV on 22 May to see Parkes and learn more about its research.

Video and image assets available on Dropbox

Images

Receiver in the anechoic chamber. ©  CSIRO
CSIRO astronomers Dr George Hobbs and Dr Jane Kaczmarek with the receiver.
Parkes has been continually upgraded throughout its lifetime and is already one of the world’s most productive radio telescopes. ©  CSIRO
The telescope is now 10,000 times more sensitive than when it was built in 1961 and has found most of the known pulsars and most of the ‘fast radio bursts’ that still mystify astronomers. It also helped reveal the nature of bright sources called quasars and discovered a new spiral arm in our Galaxy. ©  CSIRO
Night image of Parkes. ©  CSIRO, Wayne England
Dr Jane Kaczmarek working at the Parkes radio telescope. ©  CSIRO
With a diameter of 64 metres, Parkes is one of the largest single-dish telescopes in the southern hemisphere dedicated to astronomy. ©  CSIRO

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Background information

CSIRO hosts and manages a wide range of science-ready national research facilities and infrastructure that is used by thousands of Australian and international researchers each year. This includes Parkes radio telescope, part of the Australia Telescope National Facility, which is funded by the Australian Government and managed by CSIRO.

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