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of magnetic tunnel junctions, including PVD deposition systems, Ion Milling, Direct Write Laser Lithography, Mask Aligners, E-beam systems, CVD deposition tools, RIE tools, SEM inspection tools and metrology
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 1 day ago
of finding interdisciplinary solutions to real-world problems. Its newest endeavor, BeAM (Be A Maker), is a university-wide initiative that incorporates Making into research, education, and entrepreneurship
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fibre lasers. Our work is a mix of experimentation and numerical modelling. We use different materials, laser beam geometries and nonlinear effects, to create new light sources for a multitude of
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, such as nanoparticle assembly, nanoporous plasmonic materials or cleanroom equipment (e.g. Focused Ion Beam, photolithography, physical vapor deposition), as demonstrated in publications are essential
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). On-sensor data processing demonstration with hardware prototypes. Potential involvement in beam tests or radiation-source laboratory setups. Basic Qualifications: Ph.D. in Physics, Electrical Engineering
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facilities in Lund which accommodates state-of-the-art facilities for synchrotron and neutron beam instrumentation as well as for cryo-EM. The group also makes extensive use of the ESRF and ILL X-ray/neutron
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resources—including the Autonomous Sputter Beam Epitaxy system, the QuEEN-M electron microscopy platform, and synchrotron X-ray beamlines at the Advanced Photon Source. This is an outstanding opportunity
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techniques such as sputtering, E-beam evaporation, chemical synthesis, and advanced magnetic characterization (VSM, SQUID, PPMS). A core strength of the lab is its focus on additive manufacturing (3D printing
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setups (cryostats, superconducting detectors). Experience in cleanroom nanofabrication workflows, especially e‑beam lithography or dry etching. Knowledge of quantum information science or hybrid quantum