Researchers from The Australian National University (ANU) have developed new technology that allows people to see clearly in the dark, revolutionising night-vision.
 
The first-of-its-kind thin film, described in a new article published in Advanced Photonics, is ultra-compact and one day could work on standard glasses.

The team also say the work of police and security guards – who regularly employ night vision – will be easier and safer, reducing chronic neck injuries from currently bulk night-vision devices. 

“We have made the invisible visible,” lead researcher Dr Rocio Camacho Morales said.
 
“Our technology is able to transform infrared light, normally invisible to the human eye, and turn this into images people can clearly see – even at distance.
 
“We’ve made a very thin film, consisting of nanometre-scale crystals, hundreds of times thinner than a human hair, that can be directly applied to glasses and acts as a filter,  allowing you to see in the darkness of the night.”  
 
The technology is extremely lightweight, cheap and easy to mass produce, making them accessible to everyday users.

Currently, high-end infrared imaging tech requires cryogenic freezing to work and are costly to produce. This new tech works at room temperatures.
 
Dragomir Neshev, Director of the ARC Centre for Excellence in Transformative Meta-Optical Systems (TMOS) and ANU Professor in Physics, said the new tech used meta-surfaces, or thin films, to manipulate light in new ways.

“This is the first time anywhere in the world that infrared light has been successfully transformed into visible images in an ultra-thin screen,” Professor Neshev said.
 
“It’s a really exciting development and one that we know will change the landscape for night vision forever.”

The new tech has been developed by an international team of researchers from TMOS, ANU, Nottingham Trent University, UNSW and European partners.

Mohsen Rahmani, the Leader of the Advanced Optics and Photonics Lab in Nottingham Trent University’s School of Science and Technology, led the development of the nanoscale crystal films.

“We previously demonstrated the potential of individual nanoscale crystals, but to exploit them in our everyday life we had to overcome enormous challenges to arrange the crystals in an array fashion,” he said.  
 
“While this is the first proof-of-concept experiment, we are actively working to further advance the technology.”
 
Read about the breakthrough in Advanced Photonics.