Award Data

The proposal is to develop a system to monitor fire-induced structural vibrations that provide real time data correlating with structural integrity. The system is designed to bridge an "information void" and provide firefighters with information that can warn of impending collapse. The system, based on accelerometer technology, will monitor structural integrity through the algorithmic analysis of ...

Xidex proposes to demonstrate the feasibility of calibrating a critical-dimension atomic force microscope (CD-AFM) without the use of a reference artifact in such a way that high-precision critical dimensions can be generated independently of changes in probe tip shape. We plan to demonstrate sub-nanometer repeatability for tip-to-tip calibration, and demonstrate single-point critical-dimension me ...

A semiconductor metrology tool will be developed employing the technique of small-angle x-ray scattering (SAXS) to measure the critical dimension (CD) of patterned device structures. The feasibility of the SAXS technique to measure CD has been shown using high-power synchrotron radiation facilities which are not of practical use to the semiconductor industry. The ultimate project goal is to produc ...

We will focus our diode based multiplier technologies toward achieving a source suitable for the NIST imaging system in the 200 ¿ 400 GHz band. To date our best doubler to 200 GHz generates up to 55 mW of (CW) power with 30% efficiency and 15% (3dB) bandwidth. However, the NIST imaging system requires pulsed performance with more than an order of magnitude higher peak input power. Thus, the mul ...

TDI proposes to produce combinatorial GaN and AlGaN samples library having a wide range of doping and fabricated using a variety of surface treatment conditions. These samples will be grown using novel technological approach based on advanced hydride vapor phase epitaxy (HVPE). This method is known to produce bulk GaN materials with low defect density. Recently, TDI has demonstrated high throughpu ...

Luna Innovations proposes to develop for NIST a low-cost, yet high resolution acoustic sensor system capable of determining micro-degree changes in a water path caused by clinical medical radiation devices. The sensors are external to the water and play a negligible role in thermal transfer in contrast to current thermocouple devices in use today. An exciting element in this proposal is APPLES' ab ...

Communications between fire fighting teams traditionally consists of two-way, trunked and conventional radios that severely degrade once inside of a building or tunnel. The proposed research is focused on solving the uninterrupted in-building and in-tunnel voice and data services which are critical for fire fighter safety. Innovative Wireless Technologies (IWT) of Forest, Virginia proposes a feasi ...

Open Tech proposes to adapt the WIMP (Window Icon Menu Pointer) interface for immersive applications. Using logical input devices like windows, menus, sliders, and buttons applications can be built to be device independent. Open Tech¿s innovative approach uses a laser pointer like mouse to control a 3D WIMP interface. Scientists will be able to quickly build interfaces that are easier to learn, ...

Chlorinated hydrocarbons represent the most prevalent contaminants in the subsurface, threatening the quality of groundwater at aquifers. Existing technologies for monitoring these contaminants require expensive, labor-intensive methods of sample collection and analysis. The goal of this Phase I research project is to develop a low-cost, compact, reliable, automated, unattended, and long-term mo ...

Opportunity - Wet weather pollution is reported to be the largest water quality problem in the nation with an estimated solution at $400 billion with a regulation driven market for cities and industries to control stormwater and sewer overflows. Studies show that flow control to attenuate hydraulic rates by utilizing available storage will optimize treatment capacity and reduce downstream water q ...