Electronic transport in correlated quantum materials // Electronic transport in correlated quantum materials

The project focuses on theoretical and computational studies of transport phenomena in strongly correlated systems, with particular emphasis on non-local electronic correlations, magnetism, and multi-orbital effects.
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The project focuses on theoretical and computational studies of transport phenomena in strongly correlated systems, with particular emphasis on non-local electronic correlations, magnetism, and multi-orbital effects.
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Début de la thèse : 01/10/2026

Autre financement public

ANR Financement d'Agences de financement de la recherche*

Institut Polytechnique de Paris École polytechnique

626 Ecole Doctorale de l'Institut Polytechnique de Paris

Applicants should have a strong background in condensed matter physics and quantum mechanics, as well as solid analytical and computational skills. Familiarity with, or interest in, some of the following areas would be beneficial: • Numerical methods for correlated electron systems • Non-equilibrium many-body physics • Dynamical Mean-Field Theory (DMFT) • Feynman-diagrammatic techniques The position is intended for candidates holding (or about to obtain) a Master's degree in physics or a closely related field. The PhD position is funded for a duration of three years.
Applicants should have a strong background in condensed matter physics and quantum mechanics, as well as solid analytical and computational skills. Familiarity with, or interest in, some of the following areas would be beneficial: • Numerical methods for correlated electron systems • Non-equilibrium many-body physics • Dynamical Mean-Field Theory (DMFT) • Feynman-diagrammatic techniques The position is intended for candidates holding (or about to obtain) a Master's degree in physics or a closely related field. The PhD position is funded for a duration of three years.