Award Data

The first sentinel of ABL’s present target acquisition suite is a passive infrared search and track sensor of 1970s vintage, which we propose replacing with HyPAWS. HyPAWS is a low-cost passive wide-field of view staring sensor. Several such units suffice to provide full 360-degree view coverage. Leveraging revolutionary sensing techniques in ongoing development, HyPAWS offers advanced detect ...

Lattice Block Structures are innovative, periodic cellular materials whose combination of affordability, low relative density, and substantial strength represents a significant advance in the state-of-the-art of engineered structural materials. Lattice Block Structures in particular have superior kinetic energy absorbing ability that stems from the collapsibility of the internal cells. As a result ...

At present, turbine NDE is typically a time consuming collection of inspections that includes manual testing of holes and channels for blockages, multiple flow tests and various inspection technologies such as ultrasound, eddy current and radiography. Thermography has also become a widely method used to perform various inspections. However, many of thermographic inspections require different equ ...

Off-board vehicles deployed in littoral environments are subjected to severe operational loads, including wave slamming, high-speed collision with debris, and underwater explosions. They additionally serve as sensor platforms, and would benefit from reduced self- and radiated noise for towed array performance and mine defense. Consequently, we propose to exploit the flexibility of design offered ...

We propose to develop and fabricate an optical scanner required to address a 2-D array of trapped Rubidium atomic qubits with two lasers simultaneously. One of the most scalable approaches to quantum information processing (QIP) is Optical addressing of arrays of trapped atoms. This is done with focused spots using tuned lasers which program initial states and implement 2-quibt gates. High spatial ...

A low-cost laser process for synthesizing nanolayers in solar cells is proposed. The net effect of these nanolayers is a wide absorption of the solar spectrum. In this proposed process a laser is used to form many p-n junctions in a thin, lightly doped wafer. Each p-n junction formed will be unique so that each p-n junction converts a different range of the sunlight’s spectrum into current.

The primary objective of this STTR is to develop thick, high-temperature superconducting (HTS) multi-layer heterostructures for high-power handling microwave devices and with reduced nonlinearities. Building on the resources of Neocera’s materials research on HTS heterostructures and MIT Lincoln Laboratories vast knowledge on nonlinear behavior of HTS films at microwave frequencies, this STTR P ...

The Department of Defense uses large-scale high-resolution federated simulations to propagate rocket vehicle trajectories. Runge-Kutta methods have served as a de-facto standard while conducting such simulations. However, there are several challenges while using Runge-Kutta methods for this task. Firstly, there should be exact time-step matching between federates, otherwise the states have to be i ...

We propose to develop a novel chemical agent sensor through a joint collaborative effort between IonFinity, the Jet Propulsion Laboratory, and Imaginative Technologies. This chemical sensor consists of 1) a new and powerful detector called a Differential Mobility Spectrometer which has been developed at Imaginative Technologies by team member Dr. Gary Eiceman, and 2) a novel “soft-ionization” ...

It is the purpose of this Phase I STTR program to both demonstrate proof of concept of long nanotubes as receiving and transmitting microwave antennas, and to develop detailed simulation tools to predict their performance and determine the optimum geometry. This will build on four years of UC Irvine experience fabricating mm long individual single walled carbon nanotubes, and pioneering theoretica ...