Award Data

ABSTRACT: Multidimensional simulation of plasmas will be critical to the design of high voltage and high energy density devices over coming decades. Individual fluid simulation codes are presently limited to one or perhaps two of three plasma models: the higher densities and longer time scales of magnetohydrodynamics (MHD), the lower densities and shorter time scales of extended MHD (XMHD), and ...

ABSTRACT: We propose to develop and validate a strongly-coupled non-equilibrium plasma simulation model. Strongly coupled plasmas occur in a wide range of physical situations impacting a wide range of research and development areas connected to Air Force technology. The simulation model proposed here is based on the particle-in-cell (PIC) methodology, which has recently been validated by the pro ...

ABSTRACT: TechFlow Scientific, a division of TechFlow Inc., along with its teaming partner, the University of New Mexico, is pleased to propose a three-phased research and development effort for the design, development, fabrication, and testing of miniaturized functional cellular elements that can be incorporated into an ensemble based mesoscopic framework. The TechFlow team comprises leading sci ...

ABSTRACT: Military applications for the use of directed electromagnetic energy seek to disrupt electronic systems by exploiting non-linearity in semiconductors. While current mode second breakdown is a thermal non-linearity often exploited, it has been demonstrated that for a broad class of semiconductors RF/HPM signals at the interface will couple to protective diodes and other diode structures ...

ABSTRACT: High energy density capacitors are required for practical implementation of GW-class pulse power systems on mobile platforms. In response to this need, TPL has established unique dielectric and capacitor capabilities. Revolutionary materials, designs and manufacturing processes have been developed for power sources that have potential for an order of magnitude reduction in mass and vo ...

ABSTRACT: This effort entails theoretical development, software development, hardware implementation and testing to support the objectives of generating realistic synthetic scenes for use across the defense community in order to adequately test and evaluate aimpoint maintenance and track algorithms for High-Energy Laser (HEL) systems. BENEFIT: As HEL weapon systems mature, there is a growing ne ...

Accelerators used for nuclear-physics research require megawatts of radio-frequency energy. They currently employ vacuum-tube power amplifiers or conventional solid-state amplifiers that are inefficient and therefore consume a great deal of prime power. Many other applications including semiconductor processing, cellular-telephone base station transmitters and military communication systems simila ...

Accelerators used for nuclear-physics research require megawatts of radio-frequency energy. They currently employ vacuum-tube power amplifiers or conventional solid-state amplifiers that areinefficient and therefore consume a great deal of prime power. Many other applications including semiconductor processing, cellular-telephone base station transmitters and military communication systems similar ...

We are improving critical technologies needed for the development of laser-driven, table-top ultrafast x-ray sources suitable for ultrafast characterization of transient structures of energized molecules undergoing dissociation, isomerization, or intramolecular energy redistribution. In this SBIR project, Mesa Photonics will develop an X-ray ultrafast laser pulse measurement instrument for complet ...

Mesa Photonics plans development of a remote sensor to be used to detect clandestine nuclear material processing. We have identified a volatile chemical that is indicative of key steps in uranium isotope enrichment, and can be detected readily at low concentrations using optical methods. Small plumes that are about 1 m across and containing as little as 20 parts per million (ppm), or less, of th ...