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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 18 hours ago
clinics. Specifically, established skills in epilepsy surgery multi-modal diagnostic evaluations, planning for localization of stereo EEG, interpretation of stereo EEG, and multidisciplinary surgical
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generation of laser sources. These devices are based on a physical separation between electrical addressing and optical emission, enabling the design of addressable Tamm lasers with high potential
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the fabrication of LED and laser diodes Demonstrated experience in the cleanroom fabrication of thin films by solution and vacuum processes- e-beam lithography, e-beam deposition, sputtering. A record of
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understanding of the steps needed to provide the necessary optimal intervention for each procedure and assists to provide the necessary resources in a manner that minimizes and/or eliminates surgical delays. As
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recognizes patient conditions essential for successful completion of the procedure. Basic Procedural Responsibilities: Corroborates patients clinical history, name and date of birth with procedure, assuring
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recognizes patient conditions essential for successful completion of the procedure. Basic Procedural Responsibilities: Corroborates patients clinical history, name and date of birth with procedure, assuring
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recognizes patient conditions essential for successful completion of the procedure. Basic Procedural Responsibilities: Corroborates patients clinical history, name and date of birth with procedure, assuring
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lasers with high-average and high-peak power Building of optical cavities Running existing simulation codes in Julia and processing their results. Helping to develop new models and algorithms to simulate
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combination with optical methods (CW and pulsed laser heating, Raman, Brillouin, and other types of optical spectroscopies at extreme conditions). This position is expected to start in Spring 2026
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In the ERC-funded project CASTLe (https://www.castle.unifi.it ) we aim at a fundamental understanding of chirality-induced spin selectivity (CISS) and investigate potential applications in quantum