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laboratory is equipped with both a conventional atom probe tomograph as well as a prototype EUV-modified atom probe tool. Furthmore, our collaborative laboratory structure provides critical in-house support
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called the Fire Dynamics Simulator (FDS) . FDS is a block structured Cartesian LES code for low-speed flow which uses a high-order cutcell-immersed boundary method for complex geometry and is specifically
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) and cannabidiol (CBD), as well as numerous terpenes, flavonoids, and fatty acids. It is known that THC, CBD and synthetic cannabinoids with analogous structures can bind to cannabinoid receptors
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pool properties, material cooling rates, material grain structure, and the mechanical properties of bulk parts. These models attempt to resolve a variety of complex physics that occur during laser-metal
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the “NIST-on-a-chip” program, we are designing and building chip-scale accelerometers as field-deployable SI-traceable standards. The accelerometers employ a micromechanical structure in conjunction with a
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objective is to realize systems that are potentially useful for improving the determination of the fine structure and the Rydberg constants, which play crucial roles in the International System of units (SI
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surfaces take advantage of the increased electrical functionality, chemical and structural robustness, wealth of fabrication knowledge, and present a less disruptive technology compared with monolayers
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transmission electron microscopy (TEM) and in situ atomic force microscopy (AFM) studies of how these slip structures evolve on pure Al single crystals and follow-up work on Cu is underway. Such studies provide
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quantitative CR-PFM to novel materials and device structures, such as piezoelectric devices for energy harvesting and nano-generation, or lithium ion battery materials for improved power generation and charging
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of integration. We are developing advanced electronic, thermal, and mechanical measurements to evaluate the performance, reliability, and security of advanced microelectronic structures. Experimental techniques