Wombat puts electric rocket through its paces

A new breed of spacecraft engine is undergoing its first indoor test flights, thanks to a giant ‘wombat’ on the outskirts of Australia’s capital.

Australian Plasma Thruster being tested in the Space Simulation Facility at Mount Stromlo. Credit: Naomi Mathers, ANU

The Australian National University has developed a plasma thruster that uses electricity to ionise gas and produce thrust, allowing the engine to run for longer and with much less fuel than a chemical rocket.

This makes it ideal for manoeuvring satellites in orbit, or for extended voyages to places like Mars. However, rocket manufacturers need to be sure it works before trusting it on multimillion-dollar satellites.

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Australia’s newest radio telescope

Fundamental questions about the Universe are set to be answered as a new radio telescope in outback Western Australia comes online, using multiple beam radio receiver technology to view the sky with unprecedented speed and sensitivity.

CSIRO’s ASKAP antennas stand at the Murchison Radio-astronomy Observatory in Western Australia. Credit: CSIRO

The Australian SKA Pathfinder (ASKAP), CSIRO’s newest telescope, uses innovative phased array feed receivers, also known as ‘radio cameras’, to capture images of radio-emitting galaxies in an area about the size of the Southern Cross—far more than can be seen with a traditional radio telescope.

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Monster black holes supersize their galactic greed

Monster black holes lurking in the centres of galaxies are hungrier than previously thought, Melbourne scientists have discovered.

Artist’s impression of a star being pulled into a black hole. Credit: Gabriel Perez Diaz

Astrophysicist Alister Graham and his team at Swinburne University have revealed that these so-called supermassive black holes consume a greater portion of their galaxy’s mass the bigger the galaxy gets. The discovery overturns the longstanding belief that these supermassive black holes are always a constant 0.2 per cent of the mass of all the other stars in their galaxy.

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Academy recognition

Photo: Wouter Schellart’s geodynamics research into the activity of the Earth’s mantle, including the Mt Etna volcano, earned him the AAS Anton Hales medal for Earth Sciences. Credit: NASA

The Australian Academy of Science recognised five individuals for their career achievements in 2013.

Made to order: printing of live cells

Surgeons may soon be able to regrow patients’ nerves, such as those in damaged spinal cords, using technology adapted from the type of inkjet printer most of us have connected to our computer at home.

Gordon Wallace is developing the technology to print human cells. Credit: IPRI

Researchers at the ARC Centre of Excellence for Electromaterials Science (ACES), University of Wollongong (UOW) node in NSW, have spent the past three years developing the technology to print living human cells—nerve cells and muscle cells onto tiny biodegradable polymer scaffolds. They’ve also developed a special “ink” that carries the cells.

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More efficient solar cells with quantum dots

Dr Baohua Jia

Swinburne University of Technology, Melbourne, Australia

The global race to develop high efficiency, low cost solar energy is fierce. And Baohua Jia and her colleagues are front runners.

Click image for hi-res. Photo: Dr Baohua Jia, Swinburne University of Technology (credit: L’Oréal Australia/sdpmedia.com.au)
Click image for hi-res. Photo: Dr Baohua Jia, Swinburne University of Technology (credit: L’Oréal Australia/sdpmedia.com.au)

Conventional solar cells are efficient, but thick and expensive. Baohua and her colleagues imagine a future when solar cells are so thin and cheap that city skyscrapers will be powered by a coating on their glass. But at present such thin-film solar cells are not efficient enough for general use.

Using her knowledge of nanotechnology and optics, Baohua and her colleagues have already created thin-film solar cells that are more than 20 per cent more efficient than those of her competitors. They have already lodged two patents.

But Baohua thinks she can do better. And that will be the focus of the work assisted by her $25,000 L’Oréal Australia & New Zealand For Women in Science Fellowship.

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A new art form from nanotech

Science and art have combined to bring hand-drawn content for holographic TV and other 3D display technologies a step closer, thanks to research at the Australian National Fabrication Facility’s NSW node (ANFF-NSW) at the University of New South Wales (UNSW).

Paula Dawson’s work may help to deliver holographic TV and 3D display technologies – represented with an artist’s impression. Credit: Paul Henderson-Kelly

Unlike the traditional method of making a hologram—which involves reflecting a laser off a real object—the new technique simulates objects within computer software. In a recent test, a virtual, digital hologram file was produced and etched as a 3 mm-wide nanoscale pattern onto a glass plate using ANFF-NSW’s Electron Beam Lithography facility. When laser light was shone through the glass, a 3D hologram sprang into life.

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Light work makes for a better drop

New Australian technology will enable real-time monitoring of wine throughout its fermentation and maturation process, reducing spoilage and improving quality.

Smart Bungs use sensors based on optical fibres to continuously monitor the health of wine during the fermentation and maturation process. Credit: IPAS/Jennie Groom Photography

The “Smart Bung” technology has been pioneered at the University of Adelaide by the Institute for Photonics & Advanced Sensing (IPAS) and the School of Agriculture, Food and Wine (SAFW). The work is led by Prof Tanya Monro, Director of IPAS.

An optical fibre sensor incorporated into the bung of a wine cask can detect substances that might cause the wine to spoil. The optical fibres have tiny holes that take up minute samples of the wine. The sensor shines light through the fibres to determine the concentration of certain important chemicals, such as hydrogen peroxide and sulphur dioxide—all without having to open the cask. The system will enable continuous, real-time cask-by-cask monitoring and an immediate response if problems are detected.

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