ANU Research School of Physics Professor Mahananda Dasgupta. Photo: James Coleman.

Heavy Ion Accelerator Facility

The HIAF comprises one of the world’s largest 14UD pelletron accelerators and a superconducting “booster” linear accelerator (LINAC) housed and operated by ANU.

label Research theme

Research themes

Content navigation

Visit the website

About

The Heavy Ion Accelerator Facility (HIAF) comprises the 14UD pelletron accelerator and a superconducting 'booster' linear accelerator. Tha Facility is housed and operated by the Department of Nuclear Physics in the Research School of Physics at The Australian National University. The HIAF supports Australia's only experimental nuclear physics program, a major accelerator mass spectrometry program and facilities for ion-beam modification and analysis of materials.

The HIAF accelerators provide important infrastructure for the Australian research community, with applications that range from creating and characterising new and innovative materials, resource/energy exploration and waste management, research in environmental, biological and life sciences and investigating climate change, to archaeological and heritage studies, and critical investigations into nuclear science, including fundamental quantum science through systematic inquiry into nuclear behaviour and properties following collisions between atomic nuclei. Watch this video to see inside the Facility.

For more information visit the Heavy Ion Accelerator Facility website..

Articles

HIAF

A new partnership between The Australian National University (ANU) and world-leading Los Alamos National Laboratory (LANL) in the United States will deliver innovations in nuclear science and help steward the safe use of nuclear technologies across the globe.

Read the article
A woman standing among some laboratory equipment

The ANU Research School of Physics is home to the largest and most powerful ion accelerator in Australia, and Professor Mahananda Dasgupta would like its world-class reputation to be better known here at home.

Read the article
-35.283206095801, 149.1125163582