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allosteric regulation by inhibitory ligands. Multiscale modeling that combines quantum mechanical and molecular mechanical potentials will allow us to determine the atomistic details of phosphoryl transfer and
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-film samples on waveguide interfaces and gas phase samples over temperature ranges from 1.7 K to 350 K. The experimental results are modeled using high-level quantum mechanical methods (DFT/MP2/MRCI
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physical sensing, quantum science, communications, and dynamic spectroscopy. We have developed novel approaches to comb generation [1], spectral translation [2], and their use to interrogate cavity
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equipment is used, including superconducting quantum interference device (SQUID) magnetometers, vibrating sample magnetometers (VSM), SQUID VSM, Mössbauer spectroscopy, ferromagnetic resonance, x-ray
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, manufacturing and materials processing industries, and it also has scientific applications for solar irradiance, Earth radiance, accurate calibration of astronomical instruments, and emerging needs of quantum
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with individual device measurements such as I-V curve, quantum efficiency and time resolved PL measurements allows us to elucidate a complete picture of charge transport phenomena in photovoltaic devices
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, and spectroscopy instrumentation. electron microscopy; reliability; electronics; 2D materials; quantum materials; characterization
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Computational Investigation of Flexible Metal-Organic Framework Materials for Gas Storage and Separation NIST only participates in the February and August reviews. Flexible metal-organic frameworks
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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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RAP opportunity at National Institute of Standards and Technology NIST Computational Investigation of Carbon Capture Materials Location NIST Center for Neutron Research opportunity location