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The Imaging and Medical beamline (IMBL) is a flagship beamline of the Australian Synchrotron built with considerable support from the NHMRC. It is one of only a few of its type, and delivers the world’s widest synchrotron x-ray ‘beam’.

Research can improve both food processing and food product development.

The radiography program focuses on the development of Neutron Capture Enhanced Particle Therapy (NCEPT) from initial preclinical work, to clinical trials and finally commercial translation and licencing.

In Part 2 of our series exploring the world of nuclear science and technology at ANSTO, we share more detailed information about the nuclear scientist’s toolkit.

Snapshots of an unprecedented double element-hydrogen bond activation at a transition metal centre.

Come and discover the world of nuclear science at ANSTO - book a school tour in Sydney today.

Unique landmark instrumentation and expertise are a hallmark of ANSTO’s sovereign capability, unavailable anywhere else in Australia.  Our ability to identify the source of hazardous particulates in air, the age of water in aquifers and the detailed chemistry of toxic elements in complex soil and biota specimens are just some examples of ANSTO capability.

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.

Just under 250 schools in Australia and one school in Malaysia will participate in a series of science-based competitions during to coincide with National Science Week in 2024.

As an experimental tool for the study of magnetism, neutron scattering is without equal in its range of applications.

ANSTO operates Work Health and Safety and Environmental Management Systems designed to ensure the safety of its employees, partners and members of the public to minimise the impact of our activities on the environment.

Technical information on the Far Infrared beamline at the Australian Synchrotron.

Synchrotron light is the electromagnetic radiation emitted when electrons, moving at velocities close to the speed of light, are forced to change direction under the action of a magnetic field.

ANSTO is responsible for the Little Forest Legacy Site (LFLS) located within the ANSTO Buffer Zone boundary. This site, formerly known as the Little Forest Burial Ground (LFBG), was used by the Australian Atomic Energy Commission (AAEC) during the 1960’s to dispose of waste containing low levels of radioactivity and beryllium oxide (non-radioactive) in a series of shallow trenches. There has been regular monitoring of the site since 1966 and the results have been reported in ANSTO’s environmental monitoring reports.