Award Data

This SBIR Phase I project focuses on developing an educational platform for improving motivation levels in students with respect to the STEM disciplines, especially Mathematics. The core activity consists of live academic competition, students answering questions in a game-based, online arena. The platform will borrow the features and structures found in popular athletic sports, from points and ra ...

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) project will be to bring to the market a faster and cheaper means of gathering highly accurate local air quality. This will be done through the use of miniaturization of chemical sensors that are carried by UAVs. Not only will there be technical hurdles that will be overcome through the implementation of this ...

The broader impact/commercial potential of this project enables connectivity in otherwise difficult areas. Broadband access in rural America, for example, has been a lasting problem that inhibits business and education alike. The primary barrier to installation is the cost of trenching cable, which can be $7,000-$30,000 per service location. Similar challenges exist in emerging markets and remote ...

This SBIR Phase I project will develop educational technologies to better train university students to innovate. To become innovators, students must gain practice solving real-world problems, such as reducing hospital acquired infections, narrowing education achievement gaps or reducing poverty. However, universities struggle to provide the labor intensive, face-to-face coaching necessary for stud ...

Functions like data format conversion and signal routing are ubiquitous in traditional communication networks, but need modification to be suitable for use in future quantum-enabled networks. In particular, quantum signals do not allow for electronic processing and certain metrics like insertion loss and noise are much more critical for quantum signals than traditional optical signals. We will inv ...

In this project Nalu Scientific will design, develop, and make commercially available the “AODS”, a fast measurement tool to readout high speed signals generated by particles in particle and high energy physics experiments. Detection of individual charged particles and photons and estimation of their properties, momentum, and direction of arrival is the basis for a wide range of scientific and ...

3D circuit integration improves performance, reduces cost, and enables new applications by intimate heterogeneous integration of best of class semiconductor devices. A necessary element for 3D assembly is Through Silicon Vias (TSVs), which provide vertical electrical connections in the stacked device. NHanced currently employs tungsten to fill its nanoscale TSVs (0.4 to 1.2µm diameter). Tungsten� ...

NSL recognizes the need within the accelerator community for robust and accurate beam halo monitoring detectors. Non-idealities in the accelerating equipment, uncertainties in current machine controls, and random noise driven fluctuations all combine to diminish the quality and focus of accelerated charged particle beams which results in degradation of the resulting physics, losses which decrease ...

Argonne National Laboratory has pioneered a new method for additively manufacturing MCPs and functionalizing their channels with atomic layer deposition. We will help extend their technology to particle detection at Nuclear Physics facilities for beam tuning, and test a prototype detector at the ATLAS facility. The following figure summarizes the 5x faster pulse response of our proposed detector: ...

Advanced beam diagnostics are essential for reliable operation of high-performance accelerators and the intense beams produced by them. Non-invasive diagnostics can be used continuously with intense beams, while invasive techniques interfere with the beams and distort the beam profiles. In addition, traditional solid-based beam monitoring instrumentation produces unacceptable levels of radiation o ...