Award Data

This Phase I SBIR will lead to the development of a bandwidth tailored pump source for high purity photon pair generation. Spontaneous parametric down conversion can be used to generate high purity photon pairs at wavelengths of interest to NASA and the broader scientific community. However, these sources are highly dependent on pulsed pump laser parameters. Traditional pulsed laser sources are la ...

It is important to consider lithium-ion battery limitations particularly regarding temperature range, to ensure safe and successful mission outcomes. We have developed a gel polymer electrolyte that meets stringent requirements of high safety, stability, and non-flammabilitynbsp;for implantable medical devices and plannbsp;to further developnbsp;this electrolyte for use in cells operating in extre ...

This project proposes a coprocessor companion to future radiation-hardened processors that can boost performance using commercial Field Programmable Gate Arrays (FPGA). nbsp;This project will investigate the feasibility of using dynamically reconfigurable coprocessing circuitry within a proven fault-tolerant architecture known as RadPC.nbsp; The RadPC architecture has been matured through NASA-fun ...

This Phase I SBIR will lead to the development of key photonic components for use in high performance quantum sensors and clocks. AdvR proposes to develop very high performance phase and amplitude modulators for use at visible and ultra-violet wavelengths. The proposed innovation utilizes high performance, damage resistant optical waveguides with high speed traveling wave electrodes to provide int ...

NASA has previously developed its 3D-TPS conceptnbsp;which offers superior mass efficiency relative to legacy carbon-phenolic TPS.nbsp; Multiple 3D-TPS recipes developed to date includenbsp;a spun carbon:phenolic yarn constituent.nbsp; Future recipes may require alternate yarn constructionsnbsp;(denier, blend ratios, fiber chemistries, etc.) in order to tailor TPS properties to specific mission re ...

Entry, descent, and landing systems with capability beyond current state-of-the-art are required for a number of missions. These missions represent an immediate need for return of orbital payloads, and include larger milestone objectives up to a manned flight to Mars which requires landing a payload many times beyond that achieved to date. In this Phase I SBIR, Storm Castle Technical Products inte ...

Quantum light sources are a critical need for NASA and the broader scientific community. The proposed program will develop ultra-high brightness, low loss, integrated quantum light sources in the IR spectral regime using waveguide-based technology.

This project aims to mature an innovative approach to advance the state-of-the-art in high performance space computing through the development of a fault tolerant RISC-V flight computer with coprocessor support.nbsp; This project builds on over 14nbsp;years of NASA-funded research at Montana State University (MSU) on strategies to provide fault tolerance in space computers through the implementati ...

The U.S. Army has a future need for multiple secondary high explosive compositions that can also be used interchangeably as rocket propellants. In this proposal we will discuss a method of preparing such compositions via advanced spray drying technology and involving the use of a highly insensitive spray dried nitramine or CL-20 composition which have been plasticized with an energetic polymer t ...

Computers that operate in space are exposed to a harsh radiation environment that causes material degradation and intermittent crashes.nbsp; Current solutions to this problem include ldquo;hardeningrdquo; a computer by altering the underlying semiconductor material and using non-standard circuit designs.nbsp; These approaches make these rad-hard computers expensive and with performance that lags c ...