Search results

The design and implementation of alternative energy sources is one of the greatest scientific and social challenges of our time.

The BRIGHT Project will expand the beamline infrastructure of the Australian Synchrotron to increase both its capacity and capabilities.

ANSTO seeks candidates who are passionate about making a contribution to Australian society through supporting nuclear science and technology.

The Scientific Computing team supports researchers by performing numerical simulations that complement experimental research. In particular, we use state-of-the-art software to perform computational quantum mechanical modelling, molecular dynamics simulations, lattice dynamics calculation, data analysis and visualisations.

Modelling and experimentation - a powerful combination in probing mechanical properties of ion irradiated materials through nanoindentation.

Four annual awards in neutron scattering were announced at Australian Neutron Beam Users Group (ANBUG) and AINSE Neutron Scattering Symposium (AANSS) to individuals with strong links to ANSTO

Samples and techniques on the Far Infrared beamline at the Australian Synchrotron.

Contributing to research that strengthens the defence of Australia

Research explores how structure contributes to function in food

The instrument is very well suited for the study of kinetic effects, like relaxation following a chemical reaction, or external impulses like mechanical deformation, an electric or magnetic field.

ANSTO researchers have taken up the challenge to develop a coating for the cladding used in nuclear reactors to prevent it from taking up hydrogen and releasing it if temperatures get too high and repair itself if damaged.

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.

Aimed at the delegated Radiation Safety Officer responsible for radioactive substances and/or radiation apparatus in industries affected by NORM (naturally occurring radioactive material).

The first experimental evidence to validate a newly published universal law that provides insights into the complex energy states for liquids has been found using an advanced nuclear technique at ANSTO.