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technical team. You will work on the design, assembly, and optimization of experimental setups and inspection systems (femtosecond laser illumination, PMT detection), considering nonlinear optics and
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Technology (FTMC) is the largest scientific research institution in Lithuania, conducting cutting-edge fundamental research and technological development. FTMC’s research spans key areas such as laser
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will be used to study photoinduced processes in biomolecules mediated by conical intersections. The research activity will also include the use of XUV radiation and free-electron lasers. Where to apply
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research institution in Lithuania, conducting cutting-edge fundamental research and technological development. FTMC’s research spans key areas such as laser technologies, photonics, materials science
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Institute of Fundamental Technological Research Polish Academy of Sciences | Poland | about 1 month ago
.). Magnetron sputtering (MS), high-power pulsed magnetron sputtering (HiPIMS), pulsed laser ablation (PLD), and their combinations will be used to obtain functional coatings. The study primarily focuses
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Łukasiewicz Research Network - Institute of Microelectronics and Photonics | Poland | about 1 month ago
foreign funds annually, the goals of which are to increase the innovation of the Polish economy. Job Responsibilities Conducting technological processes related to the fabrication of VCSEL lasers, including
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Veterinary Medical Center is housed in an 8-room suite that includes a general treatment room, a surgical suite for laser surgery and video-otoscopy, a microscope room with multiple Olympus microscopes, a
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The University of British Columbia (UBC) | Vancouver UBC, British Columbia | Canada | about 1 month ago
equipment and infrastructure such as fibre and solid state laser systems amplified femtosecond laser systems OPOs, and midinfrared sources; - Developing, improving and implementing a variety of laboratory
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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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and moved by laser-based optical tweezers in a closed action–perception loop. Your work will help transform current observation-only live-cell imaging microscopy into actively controllable, automated