Centaurus A lies 14 million light-years away, in the southern constellation Centaurus, and houses a monster black hole 50 million times the mass of the Sun.

The galaxy's black hole generates jets of radio-emitting particles that billow millions of light years out into space.

The spectacular sight is invisible to the naked eye.

"If your eyes could see radio waves you would look up in the sky and see the radio glow from this galaxy covering an area 200 times bigger than the full Moon," said the lead scientist for the project, Dr Ilana Feain of CSIRO's Australia Telescope National Facility (ATNF).

"Only a small percentage of galaxies are of this kind. They're like the blue whales of space - huge and rare."

Seen at radio wavelengths, Centaurus A is so big and bright that no-one else has ever tried making such an image.

"This is the most detailed radio image ever made of Centaurus A, and indeed of any galaxy that produces radio jets," said Dr Lewis Ball, Acting Director of the ATNF.

"Few other groups in the world have the skills and the facilities to make such an image, and we were the first to try."

Dr Feain and her team used CSIRO's Australia Telescope Compact Array telescope near Narrabri, NSW, to observe the galaxy for more than 1200 hours, over several years.

This produced 406 individual images, which were 'mosaiced' together to make one large image.

Dr Feain combined the Compact Array data and data taken from CSIRO's Parkes radio telescope.

Processing the image - combining the data, taking out the effects of radio interference, and adjusting the dynamic range - took a further 10,000 hours.

Astronomers will use the image to help them understand how black holes and radio jets interact with a galaxy's stars and dust, and how the galaxy has evolved over time.

Centaurus A is the closest of the galaxies with a supermassive black hole producing radio jets, which makes it the easiest to study.

Astronomers are interested in studying more of these rare, massive galaxies to determine the role black holes play in galaxy formation and growth.

Dr Feain said the sample of galaxies we have today is just the tip of the iceberg, because current telescopes don't combine the sensitivity needed to detect these sources and the ability to survey large areas of sky.

Enter ASKAP, the Australian SKA Pathfinder telescope, a new telescope being developed by CSIRO and partners, located in Western Australia.

ASKAP will be a survey telescope, designed for projects such as hunting for galaxies like Centaurus A in the distant universe. It is a precursor facility for the planned Square Kilometre Array (SKA), the world's largest radio telescope.

"ASKAP will be incredibly fast," said Professor Brian Boyle, CSIRO SKA Director. "Gathering the Centaurus A data with the Compact Array took 1200 hours. With ASKAP, it would take five minutes."

ASKAP is on schedule for completion in 2012. In its first six hours of operation it will generate more information than all previous radio telescopes combined.

Centaurus A was one of the first cosmic radio sources known outside our own Galaxy and it has a special connection with Australia.

The (visible) galaxy was discovered and recorded at Parramatta Observatory near Sydney in 1826. It was later catalogued under the name NGC 5128.

As a radio source, Centaurus A was discovered from Dover Heights in Sydney by CSIRO scientists in 1947.

The CSIRO image of Centaurus A were presented on Friday July 3 at an international conference, The Many Faces of Centaurus A, at the Mint in Sydney.

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