Award Data

This NASA Phase I STTR effort will establish the feasibility of developing a compact broadband near to mid-IR programmable optical comb for use in laser based remote sensing and communications. The comb generator will use a waveguide-based optical parametric gain block technology that can have ultra wideband (>250nm) operation with very high gain (>25dB) in a very compact footprint. This approach ...

To provide reliably secure communications, development of quantum optical devices for encrypted ground-to-space communications is a necessity. The overall goal of this NASA effort is to develop and deliver efficient, single-pass quantum optical waveguide sources capable of backward quasi-phase-matched interactions for generation of high purity photon pairs for use in an on-demand photon source to ...

This SBIR Phase I effort proposes to establish the feasibility of developing a UV Planar Lightwave Circuit (PLC); a compact, highly efficient, waveguide-based frequency conversion module for the generation of phase modulated UV radiation for use in multi-wavelength lidar applications such as NASA LaRC's HSRL program. The proposed module will provide phase modulated 355 nm radiation for calibratio ...

This Small Business Innovation Research Phase I effort will investigate the feasibility of using electro-optic (EO) beam scanning element to control coupling into a fiber as a fiber coupled pulse shaper. The goal of the pulse shaper is to reduce a 4-6ns pulse to 0.4-0.6ns pulse at 1064nm and/or 532nm at input powers at the 2mJ level. The highest utility of the proposed pulse shaper is its progr ...

This Small Business Innovation Research (SBIR) Phase I project will demonstrate a novel, three-dimensional (3D) imaging system concept that combines cutting-edge high-resolution, frequency-modulated continuous-wave (FMCW) Laser Radar (LADAR) with powerful Feature Specific Imaging (FSI) techniques. Many applications including autonomous navigation, object recognition, and machine vision would benef ...

The objective of this proposal is to design and develop compact, efficient, electrically small, broadband antennas that are capable of handling high voltages of greater than 100 kV, and fit into small geometrical spaces of less than 40 mm in diameter and 50 mm in length. Previously insurmountable challenges to achieving the stringent requirements of simultaneous compact size, wider bandwidths, an ...

The objective of this proposal is to develop innovative concept designs for flat-panel, low-profile, smallest possible aperture, phased-array GBS receive antennas in the 10.5 – 13.5 GHz Ku-band and 20.2 – 21.2 GHz K/Ka-band. Furthermore, the objectives include that the antenna be realized within a 40” cross section. Conventional array antenna designs to meet the G/T requirement ...

This project will develop and demonstrate a prototype Modular Perfusion Bioreactor (MPB) for tissue engineering applications. While many unique styles of bioreactors have been proposed for various types of stem cell and tissue cultures, there is not a single, easy-to-use device that accommodates the multiple diverse needs of multiple tissue culture types.. In order to take advantage of recent ad ...

Pine Ridge Products LLC will introduce a tactical micro wind turbine that is highly efficient, robust, easy to use, maintain and transport. The Army is requesting a renewable energy system to reduce the amount of fuel used for small power loads. A vehicle mounted, efficient wind turbine system would improve self sufficiency on site by decreasing the need for fossil fuels. This will increase reliab ...

This Small Business Innovation Research (SBIR) Phase I project will develop a vacuum-based cleaning process that relies on the tendency of vapor bubbles to form at surface crevices where contaminate particles lodge. Upon implosion, the bubbles release a large amount of localized energy meant to dislodge particles. By focusing energy at the surface, less energy is required than in processes which ...