Award Data

Prevention of the smuggling of special nuclear materials (SNMs) and other radioactive material into the United States is a key national security objective. It is desirable to have a system capable of stand-off detection to monitor and rapidly alert the presence of covert nuclear materials. In Phase I, Tanner in collaboration with the University of New Mexico have established the method of inferrin ...

ABSTRACT: Metal-oxide devices offer power dissipation advantages such as low standby power dissipation, better defect resilience versus silicon, superior electronic and magnetic properties, and are broadly Si compatible hence their attractiveness and candidacy fo BENEFITS: Radiation hardened microelectronics are critical for future Department of Defense (DoD) systems where devices are required to ...

ABSTRACT: We propose a concept for the detection of radiological sources at stand-off distances, using a two part system consisting of a detector tag and a radar system. A radiation-sensitive resonant circuit with nonlinear properties (the tag) is placed near a kn BENEFITS: Successful completion of this project will result in one or more circuit designs for detection tags, and theoretical, simula ...

ABSTRACT: Autonomous vehicles lack a standardized mechanism for seamless cross-platform sharing of testing frameworks and evaluations of basic tasks. The ability to execute common tests on various hardware platforms is essential in order to be able to e

The need for novel weapons to defeat urban targets and rapidly immobalize enemy combatants hiding in bunkers, caves, and basements requires new weapons and tactics. Thermobaric warheads can provide tailored blast response optimized for the defeat of these targets with low collateral damage. In this Phase I SBIR program, Powdermet will develop surface-coated metallic particles that can deliver tail ...

Alameda Applied Sciences Corporation (AASC) proposes to develop an all-solid-state, compact, portable, multi-gigawatt poer modulator for electron and ion beam diodes, high power microwave and x-ray sources. This modulator is based on Inductive Energy Store (IES) using an array of Diamond Opening Switches for power compression. Because power amplification using IES requires a much smaller volume ...

Alameda Applied Sciences Corporation (AASC) proposes to develop a new type of interferometer that is compact and portable and can be used to make in-situ measurements of gases and plasmas. This interferometer uses polarization maintaining optical fibers and diode lasers to duplicate the capabilities of existing Mach-Zender interferometers that use dicrete optical elements such as mirrors, lenses ...

Alameda Applied Sciences Corporation (AASC) proposes to develop two components of a three-component, survivable debris shield for large area test exposures to cold (1-5keV) x-rays. These elements also have commercial potential in accelerators and in radiography. The elements are: an ultrafast gas curtain designed to be located close to the x-ray source to deflect plasma debris as well as ~um siz ...

Alameda Applied Sciences Corporation (AASC) proposes to replace the current return rods in the anode of the plasma radiation source (PRS) load, with an annular, supersonic gas jet: an innovation that could drastically reduce source region debris along the line-of-sight (LOS) of the test object, in a z-pinch, soft x-ray, weapons effects simulator, and make the debris mitigation system (DMS) simpler ...

Under our Phase I SBIR effort, and also under a complementary Arete Associates IR&D-funded airborne program, Areté successfully defined and performed preliminary airborne, long-standoff, demonstration of critical elements of novel, passive, multi-view, multi-channel algorithms for performing FOPEN against targets highly occluded by foliage. During Phase II, through the Phase II option, Arete prop ...