Kookaburra - Ultra small angle neutron scattering
Ultra small angle neutron scattering on Kookaburra is used to study the size and shape of objects of size 10 micrometres and below.
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Ultra small angle neutron scattering on Kookaburra is used to study the size and shape of objects of size 10 micrometres and below.
The Biosciences team undertakes the radiolabelling of chemical, biochemical. biological or material vector for the purpose of radiotracing in living systems.
ANSTO neutron diffraction scientist was among the experts presenting on next-generation batteries at South Korean conference.
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.
Physicist and cancer research Dr Mitra Safavi-Naeini, Macromolecular crystallography beamline scientist Dr Eleanor Campbell and Engineering Support Workshop Manager Bianca Shepherd have been chosen by Science and Technology Australia as the next Superstars of STEM
ANSTO’s Innovation Precinct welcomes NSW Government’s $12.5 commitment funding.
Spatz neutron reflectometer becomes 15th neutron scattering instrument that is used for studies of biological materials and other soft matter.
ANSTO showcased its significant contribution to security, safety, and public health during a visit of the Director-General of the International Atomic Energy Agency (IAEA) Rafael Grossi, Minister for Industry and Science Ed Husic, Australian Ambassador to Austria Richard Sinclair and Ambassador for Arms Control and Counter-Proliferation Ian Biggs and other dignitaries at the weekend.
Highlighted at radiation protection congress
Dr Carol Azzam Mackay is the Design and Innovation Manager at nandin, ANSTO’s Innovation Centre.
ANSTO shares expertise on food authenticity research using nuclear techniques with Southeast Asia stakeholders.
The THz/Far-IR Beamline couples the high brightness and collimation of a bend-magnet synchrotron radiation to a Bruker IFS125HR spectrometer providing high-resolution spectra (0.00096 cm-1) with signal to noise ratio superior to that of thermal sources up to 1350 cm-1 for gas-phase applications; the beamline also delivers signal to noise ratio superior to that of thermal sources up to 350 cm-1 for condensed phase samples.
ANSTO has an association with Ouranos Systems, a company that is developing robust nuclear-based power solutions for satellites and space vehicles.
Choose from our list of research topics and let your students lead a 30 minute Q&A session with our ANSTO experts.
Developed by ANSTO’s predecessor the Australian Atomic Energy Commission (known as the AAEC) in the late 1960s, the Technetium-99m Generator revolutionised nuclear medicine imaging in Australia by enabling imaging procedures to be performed not only in major capital cities but throughout regional and rural Australia.