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-sensitive focal plane arrays for use in CMB measurements. The sensor elements are superconducting transition-edge sensors that are read out by multiplexed SQUIDs. The research will involve the development
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interfaces and sensor material-electrode contacts; and (2) methods to reduce/eliminate drift and to provide self-calibration routines. Arrays; Bio-inspired methods; Biosensors; Chemical sensors; MEMS
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applications in areas such as chemical sensors, NEMs, nanolasers, and nanoscale thermoelectric devices. A key aspect of these structures that makes the research challenging and enables the utility of various
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NIST only participates in the February and August reviews. The development of nanomaterials, biomaterials, sensor films, and surface measurement methods require well-defined substrates that vary in
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, reconfigurable, and integrable nanophotonic technologies, we will be able to interface with a broad range of AMO systems including individual, arrays, and ensembles of atoms and ions in free space as well dilute
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RAP opportunity at National Institute of Standards and Technology NIST Applications of Computational Optical Imaging Methods Location Physical Measurement Laboratory, Sensor Science Division
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Sensor Science Division in Gaithersburg, MD. In Boulder, opportunities in JNT system research include ultra-low noise system design, SFQ electronics, electromagnetic interference (EMI) rejection/correction