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Profile
Project BRIGHT
The BRIGHT Project will expand the beamline infrastructure of the Australian Synchrotron to increase both its capacity and capabilities.
Towards realisation of novel semiconductor radiation detectors
Evidence of spin nematic
Evidence for existence of a highly exotic and elusive state of matter, known as a magnetic ‘spin nematic’ phase in a natural mineral called linarite.
Advanced refrigeration technology on the horizon
Atomic mechanism produces colossal cooling effect in new class of materials .
Gamma radiation imaging technology
A new imaging technology developed at ANSTO makes it possible to image, identify and locate gamma-ray radiation in a safe and timely manner.
Sample Environments
Sample environment types that are available on the Powder Diffraction beamline.
Research supports potential local supply chain for component in COVID PCR test
University of Melbourne researchers have investigated a method to produce magnetic nanoparticles in Australia for use in COVID-19 PCR tests.
ANSTO features in latest round of collaborative research grants
Better understanding of light harvesting may benefit agriculture
Interstellar measurements at ANSTO provide new insights into the formation of gold and other heavy elements
ANSTO’s Centre for Accelerator Science measures extra-terrestrial plutonium in a study to clarify the origin of the heavier elements
Hijacker parasite blocked from infiltrating blood
International collaboration uses Australian Synchrotron on pioneering malaria research.
Producing superconductors for quantum circuit elements at high temperatures
Archive
Archive of ANSTO research publications, seminars and short talks.
National Science Week: Success with virtual events
Virtual activities celebrating the benefits of nuclear science and technology held for National Science Week
High-energy heavy ion microprobe
The high-energy heavy-ion microprobe is used for the characterisation or modification of material properties at depths from approximately 1 micrometre to maximum depths of up to 500 micrometres from the material surface.