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imaging is welcome but not required. The candidate is expected to work independently for the design and realization of experiments. Where to apply E-mail xavier.nicol@cnrs.fr Requirements Research
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tools • Modeling of devices with the finite element method • Micro-nano fabrication in the IEMN's clean room • Physical / Electrical characterization of devices • Participation in the ANTARES project
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City TOULOUSE Website http://www.laas.fr STATUS: EXPIRED X (formerly Twitter) Facebook LinkedIn Whatsapp More share options E-mail Pocket Viadeo Gmail Weibo Blogger Qzone YahooMail
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physics, structured around three main axes: Novel electronic states of matter (correlated systems, unconventional superconductivity, magnetism, metal-insulator transitions, etc.) Reduced-dimensionality
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Finite Element Model of the Larva Body: Utilise existing Drosophila larva CT-scan data to segment components such as the cuticle, muscles, and mouth hook. Implement finite element simulations within
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teams. Nearly 90 doctoral students, a dozen post-docs, 60 master's or engineering school interns complete the workforce. Attached to the CNRS Institute of Computer Science, its research themes cover a
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, which allows for a preferred writing of elements and strong algorithmic properties, is very useful, but only few examples are known. Thomas Haettel (with Jingyin Huang, Duke Math. Journal, 2024) recently
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to develop chiral metal nanoclusters, understand their chirality at the atomic level through a combination of advanced spectroscopic techniques and theoretical simulations, and apply them to relevant processes
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the majority of polluting ionic species, as well as toxic heavy metal ions (Pb2+). The multiplexed detection system proposed for the study is based on the cointegration of several sensors that are selectively
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for manufacturing chiral metal nanoclusters of different sizes, metal compositions and degrees of chirality (intrinsic and induced). The main objective of the work is to adjust the chiral properties in order to