Award Data

The EAS will be deployed by an LBS-UUV to conduct Naval Oceanographic Surveys in shallow water. The unit will consist of a housing containing a projector, a programmable power amplifier assembly, and a battery pack. The EAS projector will be designed to maximize the percentage of energy projected in the direction of the projector's face. The unit will sit with the projector face-down on the ocean ...

Our initial, practical and potentially commercial approach, based upon years of basic and applied research in chaotic computation, was developed in Phase I of our project. Following upon phase I of the STTR project we propose, in Phase II, to engineer, synthesize, and exploit the rich, intrinsic dynamics of nonlinear and chaotic circuits and systems to implement reconfigurable, secure and noise re ...

This proposal describes a new process to facilitate the shock qualification of submarine components, taking advantage of the similarities between readily observable design features of these components, and correlating them to success or failure in Navy shock qualification tests. To realize this Design Feature Similarity (DFS) approach, we will develop a set of criteria based on this type of readil ...

Missile flight test telemetry has been performed at S band (2200 2395 MHz) since the 1960s. In 2007, Department of Defense test ranges acquired access to new C-band frequency ranges (4400 4950 and 5091 5150 MHz). While these new bands offer a substantial increase in the total bandwidth available for flight test telemetry, traditional S-band operations will continue for many years, due in part ...

Genome-scale predictable cellular design and engineering of biomanufacturing systems is the overarching goal of DARPAs Living Foundries and 1000 Molecules programs and, if realized, will enable rapid engineering of living systems for a broad range of applications in biotechnology and pharmacology. However, constructing living cells with designed genome is an arduous task that is severely limited ...

In Phase I we successfully reached all goals and milestones in developing liquid crystal sensors that detected 100 ppb of each of four target gases (DMMP, hydrogen sulfide, nitrogen dioxide and ammonia) within 60 seconds. In Phase II, we propose to expand this detection capability to a total of seven gases, adding volatile organic compounds, chlorine and half-mustard to the set. We then propose ...

In this STTR proposal, we propose a novel computational technology for analyzing millimeter wave and sub-millimeter wave scattering from complex and electromagnetically extended objects and environments. The core of our formalism lies in a technique for rapidly calculating and coherently adding fields produced by different scatterer constituents, ranging from conducting, flat surfaces to penetrabl ...

ABSTRACT: In this STTR phase II, HYPRES and University of California San Diego team will demonstrate a small size, weight and power, wideband (2 MHz to 2 GHz) receiver prototype based on SQUID array technology. Our SQUID array designs are based on highly linear bi-SQUID and SQUID cells arranged into a 2-dimensional (2D) array. The 2D arrays are fabricated using high-temperature superconductor I ...

ABSTRACT: In this STTR Tech-X corporation in partnership with the University of Washington will improve a commercial plasma modeling tool, Nautilus, for simulating high-temperature multi-fluid plasmas for problems such as the field reversed configuration, dense plasma focus and the plasma opening switch. Semi-implicit algorithms will be implemented in Nautilus so that the speed of light and elec ...

ABSTRACT: Microscopy is a critical enabling technology for advancing our understanding of nature. Imaging nano-scale objects with light in the extreme ultraviolet (EUV) and soft x-ray regions of the spectrum has advantages over visible light for several reasons including: resolution, elemental specificity, and the ability to image internal structures. Coherent diffractive imaging (CDI) has been ...