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of the optical localization system for mobile robots in dynamic and unstructured environments. Main activities • Development of an optical localization method for mobile robots operating in indoor and/or outdoor
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understanding of the deposition process/film physical chemistry/optical properties relationships Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR5266-FREMER-003/Candidater.aspx Requirements
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specific alterations in sleep quality. However, rapid eye movement (REM) sleep remains largely unexplored. Representing approximately 20–25% of total sleep time, REM sleep plays a central role in memory
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concurrently heated with an additional external stimulus. Photoacoustic sensing (introductory video: https://youtu.be/2f3V0DQNLYg ) is based on a transformation of absorbed optical energy into ultrasound waves
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-chemical characterisation of their textural, structural, optical and catalytic properties resulting from the plasmonic activation of the nanostructures. The second component will involve the development and
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the team's optical and magnetotransport benches to study electronic properties. He will work under the supervision of Matthieu Jamet, head of the 2D spintronics team, as part of the PEPR SPIN TOAST and PEPR
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a joint research unit (University of Rennes and CNRS) with 150 staff, including 60 researchers and lecturers, specialising in the study of geological and environmental processes. Keywords: Optically
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30 kHz by a burst laser source combined to two Optical Parametric Oscillators (OPOs) [7] applied on H2/air flame. The optimization of OH and NO excitation strategies and the quantification
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levels of complexity present in real materials. The PhD student will focus on the molecular scale to model and optimize the optical and mechanical properties of both the photoswitch and the photomorphon
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: the physical layer of telecommunications, technologies related to industrial and defense applications (optical sensors, lasers, instrumentation for photonics), photovoltaics and hydrogen production. Research