Award Data

We are proposing to develop a highly parallel, rapid prototyping system for the manufacture of microfluidic devices. In this phase II proposal we will build a complete system for making such devices for continued research on fieldable microfluidic systems for use in the military, and in hospitals. The project will also allow manufacturing in widely different materials, and structures, without an ...

Recent years have seen a shift in threats to US national security. Today increasing focus for national security is management of terrorist activities. Deliberately exposing a civilian population to chemicals and explosives to cause harm represents a looming terrorist threat. Early detection and identification is a difficult but essential element to minimizing the threat. The Seacoast Science/U ...

MZA proposes design, integration, testing, and simulation of electro-optical (EO) imaging and computer processing hardware for operating a phased array consisting of 7-12 subapertures. Our implementation of image processing on a graphics processor units (GPUs) for subaperture piston control will be upgraded and computer hardware will be built in Phase II to operate at control rates exceeding 1 kH ...

Future Air Force platforms require electro-optic long range imaging systems conformal to the surface of the aircraft to minimize drag and maximize stealth. The long imaging range often means having to compensate for atmospheric turbulence as well as the boundary layer around the aircraft. During the first phase of this STTR project, Optical Physics Company (OPC) demonstrated the feasibility o ...

Based on our success in developing the world first commercial 100 micro Joule fs fiber laser system and our leading technology development in ultrashort pulsed fiber laser, PolarOnyx and University of California at Davis proposes, for the first time, a fs-high power (100 W), high energy (>100 uJ) and high repetition rate (MHz) fiber laser microstructuring system to meet with the requirement of the ...

ABSTRACT: A system that operates at room temperature and that could scan for concealed weapons from standoff distances of >10 m would be a tremendous asset for US military homeland security personnel worldwide. THz imaging can, potentially, be used for this application, but it requires the development of a new class of THz detectors whereby the signal to noise ratios are improved significantly. ...

The growing complexity of future military systems demands the development of high-performance nonlinear control algorithms. The goal of this proposal is to develop a specially designed software/hardware architecture to enable real-time autonomous closed-loop control of nonlinear high-dimensional dynamical systems. Following the recent success of pseudospectral (PS) computational control methods in ...

DOLCE Technologies, LLC, in collaboration with Professor Rick Averitt’s research group at Boston University and Eric Shaner’s group at Sandia National Laboratories, will develop and deliver a high performance room-temperature Terahertz detector array solution based on metamaterial absorbers integrated with bi-material cantilevers. The metamaterial approach is frequency scalable and can operat ...

Recent advances in THz-source stability, power and practicality have opened the door for active THz imaging in both commercial and military settings. AEgis is teaming with U Buffalo to develop a THz detection device that utilizes classical rectification effects in semiconductor point contacts (SPCs) to achieve response in the 1 to 10 THz range and is capable of operating at temperatures over 150 K ...

Detecting explosives and weapons under clothing or in hand carried packages, and imaging terrain and objects through fog and smoke are two high-priority needs that can be met using light in the Terahertz frequency range. However, to image concealed threats, and aid in navigation in fog and smoke, a practical, low cost THz camera is needed. Intelligent Optical Systems (IOS) in collaboration with Re ...