Award Data

Thermal protection materials for ballistic missile kill vehicles must retain strength and stiffness at temperatures around 1500-2000oC in an oxygen rich environment, and isolate payload electronics from excessive heating. Weight is a concern, since lighter weight translates to higher velocity and kinetic energy. Further, the TPS materials must have a long service life, including the ability to w ...

The is an effort to increase radiation hardness/survivability of microelectronics through innovation of production processes and capabilities by establishing an economically viable low-volume sub-65nm rad-hard foundry CMOS capability based on Digital Beam Processing (DBP) technology. American Semiconductor (ASI) and Digibeam Corporation (DBC) propose a collaboration to evaluate sub-65nm radiation- ...

Development of configurable analog array architectures that meet a wide range MDA system application. Development and implementation of radiation hard by design techniques for analog circuits at the physical layout and circuit design levels.

The vertical water vapor profile into the atmosphere is measured around the world using balloon-borne radiosondes that take measurements twice a day when the balloons are launched. The objective of this proposal is to establish the feasibility of measuring the amount of water vapor vertically, in the atmosphere as a function of altitude using a Light Detection and Ranging (lidar) operating in the ...

Kyma Technologies together with the subcontractor at Virginia Commonwealth University, aim to develop high-performance AlInN/GaN based high electron mobility transistor (HEMT), operating in the X-band frequency region. We intent to employ a novel technical approach, which examines both large-scale semi-insulating GaN templates and high-quality semi-insulating native GaN substrates; benefits from o ...

Kyma Technologies proposes to develop high performance GaN-based Schottky barrier diodes (SBDs) using high quality native GaN substrates. The inherent properties of the native substrate and the high quality epitaxy will enable novel technology advances beyond the current GaN SBD state of the art, and these devices will benefit power converters in X-band radar power supplies through fast, low-loss ...

The object of this Phase I program is develop missile cable shielding based on carbon nanotube papers (buckypapers). Current metal shielding imposes a severe weight penalty, and the shielded cables are rigid and difficult to route. Therefore, it is critical to develop non-metallic cable shielding to provide protection from electromagnetic fields at reduced weight and with increased cable flexibi ...

The development of a generalized moving body capability for Computational Fluid Dynamics (CFD) flow simulations of highly transient flowfields is critical to system analyses of Divert and Attitude Control Systems (DACS) for Kinetic Warheads (KWs). Testing capabilities are limited in the DACS operating regime; therefore, computational tools are essential for such analyses. The flow in the DACS its ...

The pressing need exists within industry to accurately measure high aspect ratio microscale structures. For example, diesel injector nozzles are manufactured with microscale holes ranging from 50-200 micrometers in diameter and 3-5 mm depths. One fundamental challenge is to nondestrucvely measure these features in order to validate models, enhance manufacturing processes, and reduce fuel emissions ...

Manning Applied Technology proposes to develop a handheld infrared spectrometer, ideally suited to detection of airborne chemical agents at and below permissible exposure limits. This approach offers unmatched sensitivity and specificity for detection of all types of chemical vapors. The instrument is modular, rugged, compact and highly sensitive. Volume pricing will be less than $1000 each. ...