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: https://gdusson.perso.math.cnrs.fr/offre_postdoc.pdf The main objective of this postdoctoral position is to work on nonlinear model-order reduction, with a particular focus on the development and
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the experimental results within the framework of recent theories related to charge ordering. • Design and implementation of experiments on thin-film growth and topotactic reduction; • Active participation in
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Inria, the French national research institute for the digital sciences | Paris 15, le de France | France | 22 days ago
, located at Inria Paris and École Normale Supérieure (ENS). The team conducts research in various aspects of quantum information theory, including quantum error correction, quantum algorithms, and the
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with the main field of application being topological photonics based on microcavities. Analytical calculations Numerical calculations Analysis of experimental data The work will be carried out
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-source framework, enabling the systematic study of these materials. The work will involve developing tensor network numerical codes, building upon existing libraries and codes, to study general models
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-grenoble.hub.inrae.fr ) in partnership with the Biométrie et Biologie Evolutive laboratory and the Institut Français de Bioinformatique (NNCR cloud). The Virome@tlas project is recruiting a postdoctoral fellow to work
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post-doc Category (A,B or C) : A Contract/project period : 6 months at the University of Strasbourg Expected date of employment : 20/10/2025 to 31/03/2026 with possibility to extend Proportion of work
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postdoctoral position. In recent years, our team has specialised in high kinetic inductance superconducting quantum circuits operating at milliKelvin temperatures with applications ranging from novel
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(Moles & Ollerton 2016). In theory, biotic interactions should impact the shape of phylogenies (Moen & Morlon 2014, Condamine et al. 2019) and the evolution of phenotypes of species. The divergent
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methods will be periodic semi-empirical methods and density functional theory. These models will then be used to investigate the insertion mechanism of lithium ions and to understand the nature