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optics, Thin films JOB /OFFER DESCRIPTION Two-dimensional thin films are well-known for their high optical nonlinearities. For this reason, they are currently the best candidates for mode-locking of laser
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new ways. For detailed information, please visit us at http://cts.shanghaitech.edu.cn/. CTS is planning to establish 20-25 independent research laboratories in the near future. Each laboratory has
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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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research spans key areas such as laser technologies, photonics, materials science, chemistry, electronics, nuclear physics, and nanotechnologies. FTMC offers doctoral studies in a multidisciplinary research
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ABIF can be found at: http://www.mcgill.ca/abif. Primary Responsibilities 1. Technical Development & Innovation Lead and document quality control (QC) workflows for ABIF imaging systems, including
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ICP-MS using laser ablation and solutions, acid digestion of materials, and ion-exchange based wet chemistry for elemental separation prior to ICP-MS analysis. Research facilitated by the lab includes
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- Arguijo et al Nat Energy 11, 194–208 (2026). Funding category: Contrat doctoral PHD title: Electronique, Nanotechnologie, Optique et Laser PHD Country: France Where to apply Website https://www.abg.asso.fr
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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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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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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