Search results

The Centre for Accelerator Science provides complementary capabilities to Synchrotron-based and the neutron-based research with the operation of four accelerators, associated beamlines, clean laboratories and in-house expertise in ion beam analysis (IBA) and accelerator mass spectrometry (AMS).

Accelerator Mass Spectrometry (AMS) is an ultra-sensitive analytical technique based on the use of an ion accelerator as a powerful mass spectrometer.

Publications by ANSTO's Centre for Accelerator Science.

The 6MV tandem accelerator, named SIRIUS, is instrumented with a wide range of AMS, IBA and ion irradiation facilities.  The three ion sources include hydrogen and helium sources, and a MC-SNICS sputter source for solid materials. 

The 10MV tandem accelerator ANTARES is a state-of-the-art facility for ion beam analysis and accelerator mass spectrometry.

The Accelerator Science group purse a broad research program with the aims of improving the performance and reliability of our accelerators, increasing their research capabilities and developing the next generation of accelerator technology.

Voucher scheme accelerating medical research

The 1MV accelerator system, named VEGA, is designed with the capability to perform high efficiency, high precision 14C and actinide mass spectrometry.

The 2MV STAR tandem accelerator, performs both IBA and AMS analyses

ANSTO has in-house expertise in the operation and development of accelerator systems.

Accelerator technique used in pioneering biomaterials research led by the University of Sydney.

The Centre for Accelerator Science operates four ion accelerators with 11 on sources and 13 beamlines

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.

Scientists at ANSTO characterise structures with atomic detail using probes such as x-rays, electrons, neutrons and ions.

A number of sophisticated non-invasive nuclear and accelerator techniques were used to provide information about the origin and age of an Australian Aboriginal knife held in the collection of the Powerhouse Museum.

We understand that electrochemistry, electrode design and failure modes of your battery system are going to determine your design and research decisions.