KBR (NYSE: KBR) won a $48.5 million recompete to support optoelectronic technology research for the U.S Air Force Research Laboratory Sensors Directorate's Optoelectronic Technology Branch (RYDH). KBR will perform analyses of military and commercial developmental devices with emphasis on emerging electronic, plasmonic, electro-optic, and photonic technology.
These devices will include lasers, waveguides, detectors, and focal plane array. KBR will also perform analyses on materials, such as semiconductors, nonlinear crystals, and laser gain media; and more broadly, applications of the subject devices and materials. Applications for this research exist for nearly every airborne platform, including the F-35 Lightning II, spacecraft such as Wideband Global SATCOM and Global Positioning System satellites, as well as ground based and modular sensing packages.
"Our team will advance optoelectronic technology research through this recompete," said Byron Bright, KBR Global Government Solutions President. "We're excited to continue our collaborative relationship with RYDH, which has already produced 45 conference presentations and four patents awarded as a direct result of our ongoing work over the last five years."
Market forecasts by Region, Platform, and Product. Country Analysis, Market Dynamics, Market and Technology Overview, Trends overview, Opportunity and COVID-19 Analysis, and Leading Company ProfilesDownload free sample pages
KBR will perform this work over a five-year period in Dayton, Ohio. The Air Force's 774th Enterprise Sourcing Squadron awarded the cost-plus, fixed fee task order under the Department of Defense Information Analysis Center's Multiple Award Contract.
Since 2010, KBR has supported researching and developing laser systems for the Air Force's RYDH. KBR's expertise and agile approach allows it to rapidly produce high-quality research to drive state-of-the-art photonic and quantum substructure technologies and innovation. KBR's in-depth experience extends to high-efficiency laser materials and devices, optical fiber and waveguide confined light sources and multi-physics computer models of advanced laser systems.
Date: Apr 26, 2021
Share this news: