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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.

Radioisotopes are widely used in medicine, industry, and scientific research. New applications for radioisotopes are constantly being developed.

ITRAX has now analysed more than a kilometre of cores since it became operational in 2012.

Collaboration investigates a promising new nanoparticle for potential use in combination with other therapies for brain cancer

Nuclear science and technology award recipients to deliver Distinguished Lectures at ANSTO.

Research on the mechanism of cell death has insights to bring progress on neurodegenerative diseases and plant biosecurity.

A world-class national research facility that uses accelerator technology to produce a powerful source of light-X rays and infrared radiation a million times brighter than the sun.

Investigations of various aspects of magnetism can be conducted on all neutron-scattering instruments at OPAL.

ANSTO's facilities in Sydney include access to neutron beam instruments, X-ray and infrared instruments, biological and chemical deuteration, accelerators, and an array of other capabilities and techniques.

In Australia and the Southeast Asia basin, the ANSTO facility offers a wide range of unique nuclear-beam techniques for cultural heritage research.

A new study by researchers from Curtin University using the infrared (IR) and X-ray fluorescence microscopy (XFM) beamlines at the Australian Synchrotron has provided a better understanding of the chemical and elemental composition of latent fingermarks.

ANSTO undertakes research on Australia's water resources to inform more sustainable water management practices.