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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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precision gas measurement company based in Oxfordshire, leveraging unique technology originally developed by RALSpace. We provide state-of-the-art laser spectroscopy solutions to accurately quantify and
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spectroscopy. The following skills and experience are advantageous for the role: use of ultrafast laser amplifiers and optical parametric amplifiers; knowledge of non-linear optics; use of hollow-core fibres
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spectroscopy, lasers, nonlinear generation). • Strong experience in micro- and nanofabrication of III–V semiconductor–based devices. • Good command of written and spoken English. • Strong writing skills (report
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ice environments under controlled laboratory conditions, using advanced radiation sources including synchrotrons, lasers, and hydrogen lamps. • Involvement in a cutting-edge ERC-funded research project
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(MPD) thruster developed as part of MP2S. The second phase will involve using high-frequency laser spectroscopy to measure the speed of ions in the plasma plume of the MPD thruster during a pulse. The
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high-speed imaging, particle image velocimetry (PIV), Fourier transform infrared spectroscopy (FTIR), and laser-based spectroscopy. Perform emission analyses using simulation software, such as ANSYS
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fellow for further development. https://www.toyota-ti.ac.jp/Lab/Denshi/laser/index.html [Work content and job description] Experiment of optical manipulation with mid-infrared laser, imporving optical
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sciences from the field of solid state physics or materials research, knowledge of photoemission and/or other ultrafast spectroscopies, practical experience with high-power ultrafast lasers and assembly
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. Possible contribution to the supervision of Master and PhD students. Communication of results in high-impact scientific journals and international conferences. Laser frequency stabilization onto atomic vapor