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The new facility will be built around a product line of ANSTO’s design – a new Technetium-99m generator – that will enable greater process automation than is possible with existing technology, leading to improvements in efficiency, quality and importantly the highest levels of production safety.
The BRIGHT Project will expand the beamline infrastructure of the Australian Synchrotron to increase both its capacity and capabilities.
Discover a plethora of Teacher Professional Development and Education Resources designed for both Australian and International teachers.
You are invited to submit to the various awards from ANSTO, User Advisory Committee (UAC) and Australian Neutron Beam User Group (ANBUG).
Within the bulk structure of such glasses, boron is known to be a key actor, as it exhibits intriguing and composition-dependent changes in coordination state that often drive properties.
Soft X-ray experiments used to characterise new thin film topological Dirac Semimetal.
Low-cost X-ray detectors featuring high sensitivity, durability and physical flexibility are required in fields ranging from medical imaging to defence. In this study, a new material for X-ray detection was coupled with inkjet printing to produce a series of prototype X-ray detectors.
Discover the amazing world of nuclear science from your classroom. Join us for Meet an Expert, Nuclear Science Inquiry Skills, Junior Science, and Online Depth Study sessions for Chemistry, Physics and Investigating Science.
ANSTO's Mo-99 manufacturing facility secures Australia’s ability to produce Mo-99 to meet current and future domestic demand and provide a significant proportion to support global demand.
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.
The THz/Far-IR Beamline couples the high brightness and collimation of a bend-magnet synchrotron radiation to a Bruker IFS125HR spectrometer providing high-resolution spectra (0.00096 cm-1) with signal to noise ratio superior to that of thermal sources up to 1350 cm-1 for gas-phase applications; the beamline also delivers signal to noise ratio superior to that of thermal sources up to 350 cm-1 for condensed phase samples.