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As the size of quantum information systems (QIS) increases with technology development, the required cooling power at temperatures below 100mK will increase beyond that which currently available with commercially available milliKelvin cooler technologies. Additionally, as the size of QIS increases the number of electrical signal leads that require heat sinking in the 1K-temperature range will also ...

Liquid-metal coolants are one of the most promising solutions for the challenges of advanced high temperature nuclear reactor systems.They optimize heat transfer, neutronics, safety, and compactness of the reactor systems.Molten lead and lead-bismuth eutectic (LBE) are the primary coolant candidates due to their unique thermo-mechanical and neutronics properties.However, they are highly corrosive ...

This proposal is submitted in response to the SBIR/STTR Office of Science related to Quantum Information Science (QIS) Supporting Technologies. There is the need for fabrication techniques for scalable 3D Superconducting Radio Frequency (SRF) Structures for Quantum Information Systems. In this proposal we will develop an additive manufacturing approach to developing superconducting 3D microwave re ...

Coal is an abundant source of energy in the USA, but is not currently utilized effectively. Recently, the DOE has begun a carbon sequestration program is to develop advanced CO2 capture and compression technology for existing coal-fired plants with increased efficiency with no more than a 35% increase in the cost of electricity. This will require new approaches and technologies to be successful. N ...

Signature Research, Inc. (SGR) and Michigan Technological University (MTU) propose a Phase I STTR effort to develop a learning algorithm which exploits the spatio-spectral characteristics inherent within IR imagery and motion imagery.Our archive of modelled and labeled data sets will allow our team to thoroughly capture the variable elements that will drive machine learning performance.The overall ...

The Exascale Computing Project is tasked to develop the next generation of high performance computing systems capable of computing at 50 to 100 times faster than current HPC systems. Computing at this extreme-scale will significantly enhance the value of materials modeling and simulation to basic materials research and engineering In particular, computing at the extreme scale will enable a higher ...

Computer-aided Engineering software that apply the Finite Element Method to perform a multi-physics analysis have received widespread acceptance for traditional macro-scale material systems. Challenges persist in the modeling of complex coupled processes in environmental/thermal barrier coatings (E/TBCs) used to protect substrate material against the corrosive environment in the hot section parts ...

Recently, the Generation IV International Forum has established a set of nuclear reactors (advanced nuclear reactors), with main objectives to improve overall reactor safety, efficiency, sustainability, and proliferation resistance for economically viable nuclear energy. These advanced reactor technologies rely on novel fuels and materials that are resistant to radiation damage and corrosive envir ...

Separations often account for a majority of process costs. This is because all traditional separation processes have inherent weaknesses that prevent the system from achieving perfect (or even near perfect in many instances) selectivity. These weaknesses result in large recycle streams and require multiple separation units in concert in order to produce a product clean enough for use or sale. An a ...

The fabrication of high-quality ultra thin (~20 micron) diamond crystals targets for 9 GeV highly polarized photon beams is an outstanding challenge. Current state of the art polishing/thinning techniques are not successful in thinning single crystal diamond to such dimension because of its extreme hardness and chemical inertness. These techniques create significant stresses surface and sub-surfac ...