The Australian Square Kilometre Array Pathfinder (ASKAP) Telescope 

The Australian Square Kilometre Array Pathfinder (ASKAP) is CSIRO's newest and most powerful survey radio telescope. We've built 36 'dish' antennas that work together as a single instrument called an interferometer. The key feature of ASKAP is its wide field of view, generated by its unique PAF receivers. Together with specialised digital systems, a PAF creates 36 separate (simultaneous) beams on the sky which are mosaicked together into a large single image.


ASKAP’s ‘field of view’ is depicted showing the 36 beams as individual circles. We get all of this in one go. By comparison, the field of view of a traditional telescope would be a single slightly smaller circle. The moon diameter is half the diameter of one of these circles.

ASKAP's rapid survey capability makes it one of the world’s fastest survey radio telescopes. The PAF receivers have been specifically developed for ASKAP by CSIRO and this is the first time this type of technology has been used in radio astronomy. Traditional radio telescopes are good at providing a detailed view of a distant object. However, what astronomers often want is to study large volumes of space at once. With a traditional radio telescope, we can only do this by painstakingly looking in lots of different directions at different times. ASKAP can image (in 3D) large areas all at once, with much greater sensitivity than previous all-sky surveys. ASKAP has also been designed to be extremely fast - it will be able to detect millions of radio sources in a matter of days, opening new fields of research.

Astronomers are currently analysing data from the first series of ASKAP surveys - known as ASKAP Early Science and exciting results will soon be available. Next year and beyond, when ASKAP commissioning is complete and all 36 antennas are working together, ASKAP will map galaxies and enable new scientific discoveries that will reveal to us the structure and evolution of the Universe. So we recommend staying tuned for all the latest ASKAP news!


Phased Array Feed Receiver 

ASKAP's unique phased array feed (PAF) receivers have 188 elements, 94 in each of two polarizations.

ASKAP Specifications

  • Total collecting area of 4,000 square metres, from 36 antennas, each 12 m in diameter

  • System temperature less than 50 K

  • Frequency range from 700 MHz to 1.8 GHz

  • 300 MHz instantaneous bandwidth

  • 36 independent beams, each of about 1 square degree, yield overlapping to a 30 square degree field-of-view at 1.4 GHz

  • 6 km Maximum baseline

  • Full cross-correlation of all antennas

  • Remote array station capability located in NSW, approximately 3,000 km from the core site.

ASKAP Image Gallery

A full gallery of ASKAP images is available here


CSIRO's new ASKAP antennas at the Murchison Radio-astronomy Observatory. Credit: CSIRO

ASKAP Location

ASKAP is located at CSIRO's Murchison Radio astronomy Observatory (MRO) in Mid West Western Australia (800 km NE of Perth). The MRO has been purpose-built for ASKAP and for hosting international radio astronomy projects including EDGES, the Murchison Widefield Array and the future Square Kilometre Array.

CSIRO acknowledges the Wajarri Yamaji as the traditional owners of the land on which the MRO is situated and we participated in negotiating an Indigenous Land Use Agreement (ILUA) for the MRO to operate. The ILUA provides for educational, social and economic benefits flow to the traditional owners of the site. It includes a cadetship program that runs for the life of the telescopes, our staff also visit the remote Pia Community School as part of a student mentoring program and we’ve co-created resources on Wajarri culture and astronomy. A new ILUA for the future Square Kilometre Array telescope will expand on these benefits.

The Australian and Western Australian Governments have established a ‘radio quiet’ zone to protect the MRO site from noise created by modern life. The zone is an area 520km in diameter, centred on the MRO, in which licenced communications and electronic devices such as television transmitters, mobile telephones base stations and CB radios are controlled to limit electromagnetic interference to the radio telescopes on site.

The MRO is closed to the public but you can take in all the awesome infrastructure with this fly over the site...



Early science results with ASKAP

WALLABY has collected just over 700 hrs of commissioning and Early Science observations on four different science fields: the NGC 7232 and Dorado groups, Fornax cluster, and field around the M83 spiral galaxy.


The 220 TB of raw data will produce high resolution neutral hydrogen image cubes with full WALLABY sensitivity (i.e. have an RMS noise of 1.6 mJy/beam per 4 km/s channel) of the four fields. These cubes will provide detailed maps of the hydrogen gas content of the nearby systems and enable the discovery of new galaxies. 

The next step for us will be verifying the ASKAP data products and analysing them for scientific purposes. The next step for ASKAP will be incorporating all 36 PAFs (the last one was installed on 17 November 2017) and other newly implemented features to transform itself into a high-speed, high resolution survey instrument that will truly help us discover and understand the Universe.

News from ASKAP's Project Scientist

For all the latest news on ASKAP commissioning (that's short for testing and bringing together all the science, engineering and computing elements to complete the world's most complex and high-tech radio telescope), check out the monthly ASKAP Commissioning Update from our ASKAP Project Scientist, Dr Aidan Hotan


ASKAP news


HIPASS legacy data-set now available through ASKAP’s new archive facility, May 2018

The CASDA team are pleased to announce that HIPASS cubes are now available in the CSIRO ASKAP Science Data Archive (CASDA). CASDA is a collaboration between CASS, CSIRO IM&T, and the Pawsey Supercomputing Centre, to build a data archive for the Australian Square Kilometre Array Pathfinder (ASKAP). It will provide long term storage for Australian SKA Pathfinder (ASKAP) data products, and the hardware and software facilities that enable astronomers to access the data. CASDA will store about 5 PB per year from ASKAP and serve that to astronomers around the world using both virtual observatory (VO) and web-based portal services. Read more


Celebrating National Reconciliation Week, May 2018

This year during National Reconciliation Week all Australians are being invited to learn more about Aboriginal and Torres Strait Islander cultures and histories. Here at CSIRO’s Australian Telescope National Facility (ATNF) we have been working closely with the Wajarri people as part of establishing the site for our new Murchison Radio-astronomy Observatory (MRO) in outback Western Australia. Here we share a snapshot of Wajarri history through the story of their struggle to access education during the 1900’s. We also celebrate the Wajarri native title determination of 2017, fill you in on the MRO Indigenous Land Use Agreement and take a look at how CSIRO works with the Wajarri today, to ensure every visitor takes away not only a thing or two about radio astronomy but some knowledge of the history and culture of the ancient land on which we operate our Australian Square Kilometre Array Pathfinder (ASKAP) radio telescope and related facilities read more


Commissioning news, May 2018

The construction of ASKAP is nearing completion with 24 antennas having been handed over for commissioning and integration into the array. The remaining antennas await installation of their digital processing systems, scheduled to occur mid-2018. Delivery of ASKAP's capabilities to the astronomical community will happen in staged "array releases" of increasing scope. Read more


New funding for ASKAP supercomputer, April 2018

Pawsey Supercomputing Centre will receive $70 million to procure a replacement for its flagship supercomputer, Magnus, as well as the real-time supercomputer, Galaxy. Both systems, are close to the end of their operational lives. Magnus, a Cray XC40, is considered to be one of the most advanced supercomputers in the southern hemisphere. Galaxy is dedicated to the operational requirements of the SKA pathfinder telescopes, ASKAP and MWA. Read more


WALLABY Survey Science Team (SST) - ASKAP commissioning odyssey, January 2018

The past 17 months of working with ASKAP has been quite the journey! WALLABY SST has taken 700 hours of Early Science data, over four fields and in this article Karen Lee-Waddell tells her story of the adventures in taking and processing this new and exciting data read more 


The Small Magellanic Cloud in one shot with ASKAP, December 2017

The recent release of this stunning image of the Small Magellanic Cloud (SMC) made with data taken from 16 of ASKAP's 36 antennas highlights ASKAP’s great speed and resolution. The last time the SMC was imaged by a radio telescope, it took 320 pointings (by ATCA). In contrast, this new image was made in one shot – over three nights – using only 16 of ASKAP’s 36 receivers. Data from Parkes was added to pick up faint details. The new image reveals more gas around the edges of the galaxy and these features are more than three times smaller than we’ve seen before - enabling examination of the detailed interaction of the SMC and its neighbouring galaxies. The SMC is one of our nearest and smallest galactic neighbours - the bad news for this dwarf galaxy is that it's on track to be (eventually) gobbled up by the Milky Way - that's quite an appetite!


More ASKAP news


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