A kilometre of cores and counting: the mighty ITRAX
ITRAX has now analysed more than a kilometre of cores since it became operational in 2012.
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ITRAX has now analysed more than a kilometre of cores since it became operational in 2012.
Beamtime guide for Scientists applying to use the XAS beamline at the Australian Synchrotron.
ANSTO's unique capabilities are being used to develop a quick analytical tool to determine the geographic origin of seafood and authenticates quality.
Today Dr Jenine McCutcheon from the University of Queensland’s School of Earth and Environmental Sciences has been recognised for her outstanding research with the Australian Synchrotron's Stephen Wilkins Medal.
ANSTO will be participating in a new Industrial Transformation Training Centre established and funded by the Australia Research Council to advance the use of bioactive ingredients in Australia.
Over the last decades, neutron, photon, and ion beams have been established as an innovative and attractive investigative approach to characterise cultural-heritage materials.
A collaboration of Australian scientists has used ANSTO’s Australian Synchrotron to measure the amount of carbon that is captured in microscopic seams of deep-sea limestone, which acts as a carbon sink.
Researchers based at Monash University and the Swedish Museum of Natural History have pioneered the use of nuclear imaging techniques at ANSTO’s Centre for Neutron Scattering to resolve long-standing problems in plant evolutionary history linked to wildfires.
Use of nuclear techniques to benefit industry and consumers
The X-ray Fluorescence Nanoprobe beamline undertakes high-resolution X-ray microspectroscopy, elemental mapping and coherent diffraction imaging – providing a unique facility capable of spectroscopic and full-field imaging. Elemental mapping and XANES studies will be possible at sub-100 nm resolution, with structural features able to be studied down to 15 nm using scanning X-ray diffraction microscopy.