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the scholarship, - Knowledge in chemistry, biochemistry and/or spectroscopy and microscopy - Willingness and motivation for scientific work; - An aptitude for experimental research work; - The ability to learn and
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skills in Python, MATLAB, LABVIEW or comparable technical computing and simulation environments Experience in laser spectroscopy is an advantage Familiar with material characterization such as XRD, SEM
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calculus, linear algebra, differential equations, and basic probability at the university level Experience with scientific computing (Python, Mathematica, MATLAB, or similar) Strong written and spoken
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under different operating conditions. The research will use optical emission spectroscopy (OES) and laser-based diagnostic techniques to characterize plasma properties, identify reactive species, and
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condensed matter (material growth) and AMO (optical spectroscopy). The appointment could begin as early as February 1, 2026, and is initially for one year, with the possibility of renewal for an additional 1
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microscopy - Perform single particle detection and spectroscopy in a microfluidic setup - Perform different microscopies including scanning electron microscopy (SEM), and optical microscopy (OM
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-infrared spectral range, - Free-space and guided optics experiments, - Programming and modelling (Matlab and Python), - Infrared spectroscopy. Know-how and interpersonal skills: - Initiative, responsiveness
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, spectroscopy, and laser–matter interactions. Knowledge of semiconductor physics, materials chemistry, or nanoscale systems. Proficiency in scientific programming (Python, Matlab), data fitting, and signal
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topological phases. This position offers an opportunity for multi-institutional collaboration with experimentalists in condensed matter (material growth) and AMO (optical spectroscopy). The appointment could
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. All aspects of this work are performed 'in house' using NIST's state-of-the-art nanofabrication, molecular beam epitaxy, and low-temperature optical spectroscopy tools. The successful candidate will