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Field
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investigate the complex physics of quantum materials. We are very interested in how the charge, spin, orbital and lattice quantum degrees of freedom interact to produce novel condensed matter phases. Our team
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Functions: Lead the design and synthesis of redox-active organic linkers and their integration into crystalline MOF lattices Characterize photophysical and electronic properties of materials using
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molecules in optical lattices. The project is a collaboration with researchers in Paris and Warsaw. The post holder will work directly with Prof. Simon Cornish (Physics) and Prof. Jeremy Hutson (Chemistry
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computers and, as a result, many of them remain poorly understood. UItracold atoms trapped in optical lattices provide a pristine realization of the Hubbard model and hold the promise of solving many of its
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Required Qualifications: Ph.D. degree in engineering, mathematics, physics, or computer science. Successful publication records in thermos-fluids area. Expertise in model development using lattice Boltzmann
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materials and their unique physical phenomena, such as metal-insulator transitions, charge-spin-lattice correlations, and the critical role of defects and interfaces. Utilizing state-of-the-art electron
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states, such as heavy fermions in a Kondo lattice, integer and fractional Chern insulators, and orbital ferromagnets. "An electronic quantum simulator-Programa Fundamentos de la Fundación BBVA 2022". Share