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of nanomechanical resonators using COMSOL and MEEP Development and operation of laser-interferometric setups under ultra-high vacuum (UHV) and cryogenic conditions for the characterization of nanomechanical
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Job description: DESY The European XFEL is currently the world's most powerful free-electron laser and has, over the past decade, significantly advanced the ability to resolve the structure of matter
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campuses of the University About The Position Under the direction of the Manager, OHS and Compliance, the Technical Officer OHS (Radiation and Laser) is responsible for developing, implementing, and
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) develops advanced optical technologies, including imaging, spectroscopy, and laser ablation methods. Our goal is to bridge these cutting-edge laser technologies with clinical practice, developing solutions
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Job Posting Title: Technical Staff (Laser Technician) ---- Hiring Department: Department of Physics ---- Position Open To: All Applicants ---- Weekly Scheduled Hours: 40 ---- FLSA Status: Exempt
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-range multi-qubit gates, and the use of destructive interference to suppress loss processes. The successful candidate will design and construct the laser systems, control electronics, and vacuum hardware
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more) and at x-ray free electron lasers around the world (LCLS, SwissFEL, PAL-XFEL, and more). The candidate will have the opportunity to help shape the research program and mentor graduate and
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analyse de l'air exhalé. La spectroscopie photoacoustique (PAS) est une technique optique qui permet de détecter les concentrations de gaz en mesurant les ondes sonores produites lorsque la lumière laser
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on the use of high-order harmonic generation (HHG)–based XUV radiation driven by high-power femtosecond lasers for time-resolved studies of matter. A central research activity concerns the investigation
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dependent educational benefits Life insurance coverage Employee discounts programs For detailed information on benefits and eligibility, please visit: http://uhr.rutgers.edu/benefits/benefits-overview