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. Requirements: We are looking for a highly motivated candidate with a PhD in theoretical/computational physics or applied mathematics. A strong background in quantum mechanics and numerical simulations is
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be done via computer simulations, including Monte Carlo and molecular dynamics, combined with the use of statistical mechanics to predict e.g. phase transitions, nucleation rates, etc. The work will be
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Home EMA The European Magnetism Association Executive Board General Council Documents Membership EMA news Communication Social Networks Mailing Event Dissemination Rules All news EMA editorials Obituaries Awards beyond EMA Materials 2023 survey Commitments Young EMA EMA Awards Technical...
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source THz locale, par des simulations numériques complètes de la génération du microplasma et de ses émissions secondaires, et enfin par la comparaison des résultats théoriques avec les données
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(20 permanent researchers) and the LSCE's CLIM team (15 permanent researchers), and with Delta members from ISTerre and Edytem. https://www.ige-grenoble.fr/ Activities Set-up and simulation
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environment featuring a wide range of research activities, including QM/MM simulations, ionic liquid simulations, and excited-state characterization. The aim of this PhD thesis is the atomistic modeling
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the behavior at the wall scale. Once validated, the pushover test simulations can be used to assess the lateral resistance of walls under various configurations. The work will also involve disseminating
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‑chemical calculations on organic small molecules and π‑conjugated systems. • Conduct periodic DFT simulations to explore electronic band structures and transport. • Analyse charge transport, thermoelectric
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Selection process Applications must include a CV, covering letter, copy of diploma and valid proof of disabled worker status. Applications must be submitted online via the Inria website. Processing
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of solid dielectrics with high-intensity shaped femtosecond laser pulses. Advanced Particle-In-Cell simulations from our group show that a fraction of the free-electrons in the plasma are highly accelerated