A lightweight camera to locate hot spots and see through smoke could help a firefighter battling a fire. But today鈥檚 good infrared cameras must be very, very cold 鈥 and thereby cumbersome to work.

Optics and lasers researchers at the 麻豆原创, led by Professors David Hagan and Eric Van Stryland, have found a technology that could eliminate the need for cold and the weight, making it possible to jettison expensive and bulky cooling units for large infrared devices.

The exciting discovery was made with a common material called gallium nitride that is currently used to read Blu-ray DVDs.

The team鈥檚 research is featured in the September issue of out this week.

Much more research is needed. But Hagan said the new material may offer an alternative to expensive liquid nitrogen, which boils at a chilly 200 degrees Celsius below zero.

鈥淚f you have to cool with liquid nitrogen, it鈥檚 not very practical,鈥 Hagan said. 鈥淭his discovery opens up possibilities.鈥

Lightweight cameras are one possibility. Another is an infrared sensor on a military airplane that wouldn鈥檛 be bogged down by a bulky cooling unit.

Infrared detection and other thermal imaging systems are usually based on the material mercury cadmium telluride, or MCT. Researchers had long wanted to see if the material gallium nitride, or GaN, could detect infrared light and produce similar results compared to detectors with MCT.

The researchers used uncooled GaN detectors and an effect called two-photon absorption in which they tested two photons of light of different wavelengths.

鈥淭here are other technologies that measure infrared, but they are not very sensitive,鈥 Hagan said. 鈥淲e made the two-photon absorption very strong, and we found that using gallium nitride as a semiconductor provides surprisingly good sensitivity to infrared.鈥

Hagan and Van Stryland authored the paper with post-doctoral researchers Dmitry Fishman, Lazaro Padilha and Scott Webster and graduate students Claudiu Cirloganu, Trenton Ensley and Morgan Monroe in 麻豆原创鈥檚 College of Optics and Photonics.

The researchers used short bursts of light to conduct their initial experiments. Next, the team will test longer bursts that would be required to make the new technology practical. They also will be looking to develop devices that can house this new technology.

鈥淧eople are always interested in new types of infrared detection,鈥 Van Stryland said. 鈥淢y guess is we鈥檙e going to find some application niches people couldn鈥檛 do before.鈥