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, including thermal-mechanical response Demonstrated expertise in process development/optimization for part deformation in AM including wire arc and laser wire direct energy deposition (DED) techniques
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approaches for bottom-up and top-down growth and doping such as pulsed laser deposition (PLD) and laser processing within optical microscopy environments or within electron microscopes, where control over
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, laser spectroscopy, materials characterization, chemical separations, computational chemistry, and nuclear chemistry. Our cold labs house state-of-the-art instruments including a triple-quad ICP mass
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spectroscopy and process monitoring. Specifically, this role involves the implementation of laser-induced breakdown spectroscopy (LIBS) and multivariate modeling. Established in 2020, the Isotope Science and
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techniques like laser powder bed fusion (LPBF), directed energy deposition (DED), and powder metallurgy. The focus will be on determining the underlying phase transformation pathways and their impacts
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analysis, and laser ablation units. Major Duties/Responsibilities: Lead projects and technical services to solve technically complex, diverse, and impact applications. Lead the development to advance CIMS