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Handin Laboratory for Experimental Rock Deformation in the Center for Tectonophysics, and can use other instrumentation of the department and university (e.g., Materials Characterization Facility
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experimental research at the Niels Bohr Institute, with a focus on semiconductor nanowire materials, cleanroom fabrication of nanodevices, and electrical characterization, including low-temperature transport
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Cruz. RIL works on detector instrumentation from start to finish, beginning with materials exploration, detector fabrication and characterization, instrument design and construction, data acquisition
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of Materials Physics, contributing advanced materials characterization, electrochemical analysis, and testing of the battery cells. As a member of the Stenlid lab, you will be exposed to a broad range of
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spectroscopic properties of newly developed compounds, and their characterization. The scope of duties will also include collaboration with students and PhD candidates, preparation of scientific reports and
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ultrafast laser systems, interfacing instruments, Labview/Matlab programming, experience working with biological systems and/or nanoparticles, surface functionalization, materials characterization, various
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the manufacturing and characterization of material samples. As such, the position offers the opportunity to be involved in fruitful national collaborations. In this exciting job you can expect: to develop automated
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-ready control of electromagnetic waves. Unlike current solutions—which are energy-intensive, complex, and costly—MetaTune proposes unified tuning mechanisms, innovative materials, and cost‑effective
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solver who wants to be part of a dynamic team. Learn more about the innovative work led by Dr. Don Ingber here: https://wyss.harvard.edu/technology/erapid-multiplexed-electrochemical-sensors-for-fast
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from waveguides on the chip. By using the latest advances in electrooptic nonlinear materials, these waveguides can adjust the brightness and phase of the light at very high speed. The METAPIC project is