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. Description: An array of emerging quantum instruments uses laser-cooled atoms as precision sensors. The potential impact of these technologies, such as atom interferometer gravimeters and Rydberg-atom RF
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microorganisms and their cell-free transcription/translation systems Learning plasmid design and purification Developing skills in the optimization of sensor components and sensor function Participating in multi
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years, including the C-band European Space Agency (ESA) ERS-1/2 and ASCAT sensors beginning in 1991 to current, the Ku-band NASA‘s NSCAT QuikSCAT, SeaWinds, and ISS-RapidScat scatterometers, and the Ku
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and optimize bio-inspired chemical sensors in response to analytes of interest in air. The research team will explore methods to interface with biological sensory system, obtain multiplexed electronic
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development to support extended reality technologies, machine learning pipeline integration, integration of sensors/devices to mobile platforms, and creating novel clinical decision support applications for our
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can enable low-cost and long-lasting planetary exploration missions to hot planets. Our research objective is to develop a sensor technology platform that is temperature and radiation tolerant using
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flow. A recent explosion in the number of sensor capable of measuring ice flow from space, and the maturation of projects targeted at extracting comprehensive records of ice flow (e.g. NASA’s ITS_LIVE
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. Current research focuses primarily on the development of large-format arrays of sensitive bolometers using superconducting transition edge sensors. We also have investigated single pixel optimization
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include remote sensing algorithm development, modeling studies, data fusion, sensor development, and/or snow satellite mission concept studies. Participation in the design and execution of field campaigns
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technologies we are pursuing use doped silicon, superconducting transition edge sensors, and magnetic calorimeters. We are also expanding the capability of these devices by optimizing pixel design for specific