Tag Archives: Parkes Telescope

2015

Shared data reveals radio bursts, and a lunch break

In May 2014, a team led by PhD candidate Emily Petroff from Swinburne University was the first to see ‘fast radio bursts’ (FRBs) live, using the Parkes radio telescope in central New South Wales. The search was triggered by signals found in recycled data. They also discovered that someone was opening the kitchen microwave.

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2012

Finding pulsars in the archives

China has a large community of astronomers awaiting the construction of new telescopes to study pulsars.

When CSIRO pulsar researcher Dr George Hobbs described the high-quality data stored in the Parkes Observatory Pulsar Data Archive—which is openly available—it led to Australian pulsar data being the basis of collaboration between Chinese and Australian pulsar researchers. And they have already published several papers on what they have discovered. The archive is also serving as a major resource in an international search for gravitational waves.

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Stories of Astronomy 2012

Tracing cosmic rays from radio pulses

‘THE DISH’ AT PARKES. CREDIT: SETH SHOSTAK
‘THE DISH’ AT PARKES. CREDIT: SETH SHOSTAK

The energy of ultra-high energy (UHE) cosmic rays that strike the Earth’s atmosphere make the energy produced from particle collisions by the Large Hadron Collider look puny. A team based in South Australia is now developing the techniques and technology to find out where such energetic particles could possibly originate. They ultimately hope to use the proposed SKA telescope to conduct their search.

“We think some cosmic rays are produced in the remnants of supernovae—exploding stars—but where the most energetic ones come from, that’s a mystery,” says Justin Bray, a PhD student hunting for their source as part of the LUNASKA (Lunar Ultra-high-energy Neutrino Astrophysics using SKA) project led by Ray Protheroe at the University of Adelaide and Ron Ekers at CSIRO. Continue reading Tracing cosmic rays from radio pulses

Stories of Astronomy 2012

Putting Einstein to the ultimate test

CSIRO’s Parkes telescope records pulsar signals to try to detect gravitational waves. Credit: David McClenaghan / CSIRO

Einstein’s general theory of relativity predicts them, and they could be scattered throughout the Universe. But so far, gravitational waves— ‘ripples’ in the fabric of space and time—have never been detected. Several Australian teams of astronomers are trying to catch the first signs of one.

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Stories of Astronomy 2012

PlayStation graphics chips drive astronomy supercomputer

MATTHEW BAILES IN THE SWINBURNE VIRTUAL REALITY THEATRE IN FRONT OF AN IMAGE OF THE DOUBLE PULSAR DISCOVERED WITH CSIRO’S PARKES RADIO TELESCOPE. CREDIT: SWINBURNE UNIVERSITY OF TECHNOLOGY.
MATTHEW BAILES IN THE SWINBURNE VIRTUAL REALITY THEATRE IN FRONT OF AN IMAGE OF THE DOUBLE PULSAR DISCOVERED WITH CSIRO’S PARKES RADIO TELESCOPE. CREDIT: SWINBURNE UNIVERSITY OF TECHNOLOGY.

The technology used in your PC or PlayStation is also helping drive a revolution in radio astronomy—the replacement of custom-built hardware with flexible software and data solutions.

“Hardware solutions for radio astronomy have been evolving, but computer power has been evolving much faster,” says Matthew Bailes, from the Swinburne Centre for Astrophysics and Supercomputing. The Centre has developed software systems that are now used in Australia and overseas. Continue reading PlayStation graphics chips drive astronomy supercomputer