Gamma radiation imaging technology
A new imaging technology developed at ANSTO makes it possible to image, identify and locate gamma-ray radiation in a safe and timely manner.
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A new imaging technology developed at ANSTO makes it possible to image, identify and locate gamma-ray radiation in a safe and timely manner.
Deuteration and nuclear techniques can contribute to the science of beauty.
For more than half a century, ANSTO's specialised services have supported the unique requirements of customers working in health, agriculture, defence, mining, nuclear medicine and more.
Earlier this month, ANSTO welcomed a delegation of Elders from the Willandra Lakes Region World Heritage site to its Lucas Heights campus. The visit marked a significant collaboration between Traditional Custodians and scientists working to uncover the environmental history of Lake Mungo.
Bushfires in proximity to ANSTO during the 2018 bushfires.
Cracking the code for crop nutrition and food quality with X-ray fluorescence microscopy.
Wombat is a high intensity neutron diffractometer that is primarily used as a high-speed powder diffractometer, but has also expanded into texture characterisation and single-crystal measurement, particularly diffuse scattering.
ANSTO offers a broad range of programs and services to various industries and customers. Many of these services, including the Australian Nuclear Medicine Traceability program, are supported by online customer portals.
Accelerator technique used in pioneering biomaterials research led by the University of Sydney.
View these case studies for a more detailed look at industry challenges and how CORIS360® radiation imaging technology is improving operational decision making and keeping workers safe.
Using nuclear techniques to establish the great antiquity of Aboriginal culture: World Heritage Listing for Budj Bim Cultural Landscape.
Research collaboration with University of Sydney focuses on a personalised approach to cancer treatment.
Currently ANSTO partners with the Australian Bureau of Meteorology to operate the Australian GNIP stations with samples analysed at ANSTO’s Environmental Isotope Laboratories in Sydney.
The X-ray fluorescence microspectroscopy beamline offers a range of x-ray absorption and fluorescence spectroscopy techniques at submicron length-scales. The beamline has two microscopes optimised for complementary studies.