Award Data

The Missile Defense Agency is seeking innovative material and manufacturing processes for advanced metallic components for hypersonic flight systems. Triton Systems and their academic partner are proposing to develop the manufacturing and qualification evaluation techniques for reliable production of hypersonic environment appropriate metallic components at reduced cost and timelines compared to t ...

Through this MDA Phase I STTR program, NanoSonic shall work with the high energy laboratory at Penn State and with input from a major US integrator of hypersonic vehicles to develop improved high temperature radome materials for uncooled aerodynamic reentry and hypersonic vehicles. Through prior work, NanoSonic has developed and demonstrated high temperature materials with good thermal insulating ...

NanoSonic will work with Penn State to develop inexpensive automated manufacturing processes for the production of ceramic matrix composite thermal protective system materials with high temperature thermal performance and high thermal insulation propertiesWe will fabricate materials using automated robotic production methods, and perform testing, including high energy irradiation at Penn State’s ...

The Advanced Composite Structures group at Physical Sciences Inc. has partnered with the University of Virginia to develop a high temperature, ceramic syntactic foam that can be fabricated using additive manufacturing (AM) techniques. The AM ceramic insulator is compatible for co-processing with other CMC components such as aeroshells, fins, and additional hypersonic flight vehicle control surface ...

The innovation proposed here is a novel carbon-carbon composite (CCC) manufacturing method based on polymer infusion and polymerization (PIP) using a novel precursor polymer with exceptionally high char yields. This results in a material that has the promise of excellent quality and mechanical properties, while offering the breakthrough advantages of (1) greatly reduced or eliminated need for back ...

Low-cost systems operating at video rates within W-band have remained elusive – especially for stand-off and remote applications. Real time video rate imaging requires parallel detection modalities that traditionally led to high costs and calibration challenges. Substantial advances in low-cost packaging and chip-level integration driven by commercial millimeter-wave applications can now be appl ...

In this work, we propose to develop low-cost, high sensitivity high electron mobility transistor-based W-band millimeter wave focal plane array/camera based on mature ternary III-V epitaxial materials of InAlAs on top of InP substrate. The plasma-wave detector uses well established mature technology of high electron mobility transistors which allows future integration and reduces cost. The detecto ...

Food irradiation technology has attracted more attention in the past decade given that it can provide a sustainable solution on how to address pathogen contamination in food. X-ray irradiation has several advantages compared to other irradiation technologies including superior penetrating quality compared to electron beams, and considerably larger dose rate compared to gamma rays. However, the low ...

The US Space Force seeks to enhance the coverage of the nation’s Space Surveillance Network with smaller, perhaps mobile, optical telescopes.  It seeks to do so by developing key components for these smaller telescopes that will preserve operational performance.  Although atmospheric turbulence can limit the performance of ground-based telescopes, laser beacons are an established technique to ...

Attollo proposes to develop a GeSn / Si photodiode and tune the epitaxial layers for eSWIR sensitivity in partnership with Prof. Jack Ma (U. Wisc.) and Dr. Amy Liu (IQE) to realize 2.Xµm eSWIR detectors that can be monolithically integrated with Silicon CMOS wafers, and ultimately incorporated into low SWaP-C cameras