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topics “Physics of chiral cholesteric liquid crystals: design, optics and structure” and “Biological liquid crystals with their biomimetic versions”. The experimental methods include a strong effort in the
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themes "Physics of chiral cholesteric liquid crystals: design, optics and structure" and "Biological liquid crystals and their biomimetic versions". The experimental methods of the project include a major
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supervisor, Michel Mitov, CNRS Research Director, leads the research subject, which brings together concepts from soft matter science, liquid crystal physics, optics of chiral liquid crystals, biological
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Research subject: Physical design of twisted liquid crystals, optical properties and applications in biomimicryWe seek a highly motivated applicant interested in questions about the research topics
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March 2025. The postholder will work on the design and development of a new vectorial beam measurement system. Among other activities, this will involve investigating liquid crystal-based devices
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applied to liquid crystal sample and resulting dynamic phenomena will be systematically registered and analyzed. The candidate (M/F) will be closely guided by advisors and host group Singular and will
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(chargé de recherche CNRS, specialist of chiral liquid crystal physics and optics). Selection process To apply for this job position, please contact directly guilhem.poy[at]umontpellier.fr with a CV
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crystals sublimate. The goal of this project is to develop a helium-filled balloon with zero buoyancy which follows the airflow over the mountain. Employing this balloon drifter with a holographic imager to
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, during the downward motion, the cloud dissipates as cloud droplets evaporate and/or ice crystals sublimate. The goal of this project is to develop a helium-filled balloon with zero buoyancy which follows
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, etc. The aim of this work will be not only to study the dynamics of ferroelectric phase transitions often driven by optical soft phonons, but also to study the origin of static magnetoelectric coupling