ÑÇÖÞ²ÊƱ¹ÙÍø

IPAS members have received funding from Defence Industry & Innovation to research a potentially transformative technology for stand-off real-time explosives sensing.

There are currently no robust, rapid technologies suitable for application in the field for real-time detection and identification of explosives at stand-off ranges of 10 m or more. Other technologies exist, such as laser-induced breakdown spectroscopy or Raman spectroscopy, but all have limitations that impact their efficacy and potential for real-world deployment.

The team is using leading-edge laser technology including mid-IR lasers developed at IPAS to explore upconversion fluorescence (UF) from explosives molecules, precursors and products, aiming to demonstrate the feasibility of UF for stand-off sensing, and define the required parameters for deployable UF explosives sensors.

This research leverages extensive investment by the Australian mining industry, through CRC ORE, which has created the globally leading UF research facility at IPAS.

Prof Heike Ebendorff- Heidepriem and Associate Professor Martin O’Connor have received funding from the US Air Force Office of Scientific Research to investigate the fundamental limit of achievable laser power for mid-infrared transmitting soft glasses.

The project focuses on four different glass types using established glass compositions and fabrication procedures developed at IPAS:

• fluoroindate,
• fluorozirconate,
• germanate and
• tellurite;

with the aim to develop a range of new high gain doped materials towards enabling the realisation of new laser and amplifier systems with enhanced operating parameters.Ìý