Search results

Read about an ANSTO scientist and their work to prepare for a school project or interview.

ANSTO providing support to emergency services, closed to non-essential staff.

The Australian Synchrotron is a source of powerful X-rays and infrared radiation that can be used for a wide range of scientific and technical purposes. Synchrotron X-rays are millions of times brighter than those produced by conventional X-ray machines in laboratories and hospitals.

ANSTO has agreed to participate in an Australian trial of a review of research infrastructure access proposals in which applicants remain anonymous to aid the removal of structural barriers to the career progression of Women in STEM.

The Advanced Diffraction and Scattering beamlines (ADS-1 and ADS-2) are two independently operating, experimentally flexible beamlines that will use high-energy X-ray diffraction and imaging to characterise the structures of new materials and minerals.

INVAP, the Argentinian advanced nuclear technology company, who designed and constructed the Open Pool Lightwater Reactor (OPAL) for ANSTO to replace the HIFAR reactor is celebrating 50 years of operations with the visit of a group of INVAP executives to ANSTO to celebrate their achievements and discuss future collaborations.

ANSTO has safely managed its radioactive waste for over 60 years. Waste is managed in accordance with national and international standards.

With a well-established portfolio of nuclear research and the operation of Australia's only nuclear reactor OPAL, ANSTO scientists conduct both fundamental and applied research on fuel for current, advanced, and future nuclear technology systems.

The Biological Small Angle X-ray Scattering beamline will be optimised for measuring small angle scattering of surfactants, nanoparticles, polymers, lipids, proteins and other biological macromolecules in solution. BioSAXS combines combine a state-of-the-art high-flux small angle scattering beamline with specialised in-line protein purification and preparation techniques for high-throughput protein analysis.

ANSTO recently re-started the OPAL Reactor after a six-month shutdown for essential maintenance and the installation of an upgraded facility.

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 Infrared Microspectroscopy beamline combines the high brilliance and collimation of the synchrotron beam through a Bruker V80v Fourier Transform Infrared (FTIR) spectrometer and into a Hyperion 3000 IR microscope to reach high signal-to-noise ratios at diffraction limited spatial resolutions between 3-8 μm.

Below lists some useful programs for data reduction, search matching, analysis and structure visualisation of diffraction data.

Nuclear science is applied by ANSTO's scientists in many areas that are vital to Australia's future, including agriculture, industry and manufacturing, minerals construction, health and environment. Our work in the development and applications and new knowledge and skills arises from world-class experience in nuclear science and technologies.