News Release

Australian desert telescope views sky in radio technicolor

Peer-Reviewed Publication

International Centre for Radio Astronomy Research

GLEAM Timelapse (with Narration)

video: Narrated by Dr. Natasha Hurley-Walker, this unique timelapse movie shows the sky above a "tile" of the Murchison Widefield Array radio telescope, located in outback Western Australia. The "normal" optical sky transitions to a view of the sky at radio wavelengths. The Milky Way is visible as a band across the sky and the dots beyond are some of the 300,000 galaxies observed by the telescope for the GLEAM survey. view more 

Credit: Credit: Radio image by Dr Natasha Hurley-Walker (ICRAR/Curtin) and the GLEAM Team. MWA tile and landscape by Dr John Goldsmith / Celestial Visions.

A telescope located deep in the West Australian outback has shown what the Universe would look like if human eyes could see radio waves.

Published today in the Monthly Notices of the Royal Astronomical Society, the GaLactic and Extragalactic All-sky MWA, or 'GLEAM' survey, has produced a catalogue of 300,000 galaxies observed by the Murchison Widefield Array (MWA), a $50 million radio telescope located at a remote site northeast of Geraldton.

Lead author Dr Natasha Hurley-Walker, from Curtin University and the International Centre for Radio Astronomy Research (ICRAR), said this is the first radio survey to image the sky in such amazing technicolour.

"The human eye sees by comparing brightness in three different primary colours - red, green and blue," Dr Hurley-Walker said.

"GLEAM does rather better than that, viewing the sky in 20 primary colours.

"That's much better than we humans can manage, and it even beats the very best in the animal kingdom, the mantis shrimp, which can see 12 different primary colours," she said.

GLEAM is a large-scale, high-resolution survey of the radio sky observed at frequencies from 70 to 230 MHz, observing radio waves that have been travelling through space--some for billions of years.

"Our team are using this survey to find out what happens when clusters of galaxies collide," Dr Hurley-Walker said.

"We're also able to see the remnants of explosions from the most ancient stars in our galaxy, and find the first and last gasps of supermassive black holes."

MWA Director Associate Professor Randall Wayth, from Curtin University and ICRAR, said GLEAM is one of the biggest radio surveys of the sky ever assembled.

"The area surveyed is enormous," he said. "Large sky surveys like this are extremely valuable to scientists and they're used across many areas of astrophysics, often in ways the original researchers could never have imagined," Associate Professor Wayth said.

Completing the GLEAM survey with the MWA is a big step on the path to SKA-low, the low frequency part of the international Square Kilometre Array (SKA) radio telescope to be built in Australia in the coming years.

"It's a significant achievement for the MWA telescope and the team of researchers that have worked on the GLEAM survey," Associate Professor Wayth said.

"The survey gives us a glimpse of the Universe that SKA-low will be probing once it's built. By mapping the sky in this way we can help fine-tune the design for the SKA and prepare for even deeper observations into the distant Universe."

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PUBLICATION DETAILS

'GaLactic and Extragalactic All-sky Murchison Widefi eld Array (GLEAM) survey I: A low-frequency extragalactic catalogue', published in the Monthly Notices of the Royal Astronomical Society on October 27th, 2016.

MORE INFORMATION

The MWA:

The Murchison Widefield Array (MWA) is a low frequency radio telescope located at the Murchison Radio-astronomy Observatory in Western Australia's Mid West. The MWA observes radio waves with frequencies between 70 and 320 MHz and was the first of the three Square Kilometre Array (SKA) precursors to be completed.

A consortium of 13 partner institutions from four countries (Australia, USA, India and New Zealand) has financed the development, construction, commissioning and operations of the facility. Since commencing operations in mid 2013 the consortium has grown to include new partners from Canada and Japan.

Key science for the MWA ranges from the search for redshifted HI signals from the Epoch of Reionisation to wide-field searches for transient and variable objects (including pulsars and Fast Radio Bursts), wide-field Galactic and extra-galactic surveys, and solar and heliospheric science.

The SKA:

The Square Kilometre Array (SKA) project is an international effort to build the world's largest radio telescope, led by SKA Organisation based at the Jodrell Bank Observatory near Manchester, England. Co-located primarily in South Africa and Western Australia, the SKA will be a collection of hundreds of thousands of radio antennas with a combined collecting area equivalent to approximately one million square metres, or one square kilometre. The SKA will conduct transformational science to improve our understanding of the Universe and the laws of fundamental physics, monitoring the sky in unprecedented detail and mapping it hundreds of times faster than any current facility.

ICRAR:

The International Centre for Radio Astronomy Research (ICRAR) is a joint venture between Curtin University and The University of Western Australia with support and funding from the State Government of Western Australia.

MULTIMEDIA

High-resolution videos and imagery are available from http://www.icrar.org/GLEAM (password = 'glimmer').

CONTACT INFORMATION

Dr Natasha Hurley-Walker (Curtin University, ICRAR)
E: nhw@icrar.org
M: +61 426 192 677

Dr Randall Wayth (Curtin University, ICRAR, CAASTRO)
E: randall.wayth@icrar.org
M: +61 418 282 359

Pete Wheeler, Media Contact, ICRAR
E: pete.wheeler@icrar.org
M: +61 423 982 018

Tamara Hunter, Media Contact, Curtin University
E: tamara.hunter@curtin.edu.au
M: +61 (08) 9266 3353


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