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UTA and ARL to Develop Longwave-IR Photonic Device Technology

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ARLINGTON, Texas, June 25, 2019 — A research team from the University of Texas at Arlington (UTA) is working with the Army Research Laboratory (ARL) to develop nanophotonic devices that could have applications in thermal imaging and resonant filtering. The researchers’ objective is to develop devices that will work in the longwave-infrared (LWIR) spectral region, which is the range in which thermal radiation is emitted.

“There is a need to develop this technology because there is a shortage of optical components in longwave-infrared bands,” professor Robert Magnusson said. “Changing frequency or wavelength to this region requires that we completely change our fabrication methods.” For the new, longer wavelength devices, Magnusson and his team will create photonic lattices out of germanium, a metalloid element that has the properties of a semiconductor. The team also plans to adapt longer wavelength devices previously developed at UTA to make them tunable to specific wavelengths. In addition to thermal imaging technology, the new devices could be used in sensors for medical diagnostics, chemical analyses, and environmental monitoring.

Magnusson, the principal investigator for the $1.2 million agreement with the ARL, is collaborating with Neelam Gupta of the ARL and Mark Mirotznik of the University of Delaware on the research. 
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Published: June 2019
Glossary
nanophotonics
Nanophotonics is a branch of science and technology that explores the behavior of light on the nanometer scale, typically at dimensions smaller than the wavelength of light. It involves the study and manipulation of light using nanoscale structures and materials, often at dimensions comparable to or smaller than the wavelength of the light being manipulated. Aspects and applications of nanophotonics include: Nanoscale optical components: Nanophotonics involves the design and fabrication of...
thermal imaging
Thermal imaging is a technology that detects infrared radiation (heat) emitted by objects and converts it into an image, known as a thermogram, which displays temperature variations in different colors. Unlike visible light imaging, thermal imaging does not require any ambient light and can be used in complete darkness or through obstructions such as smoke, fog, and certain materials. Thermal cameras use sensors to detect infrared radiation and generate images based on the temperature...
Research & TechnologyeducationAmericasUniversity of Texas at ArlingtonArmy Research LaboratorynanophotonicsImagingthermal imaginglongwave infrareddefenseinfrared cameras

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