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Schlagwörter:
Quantum Physics; Condensed Matter; Mesoscale and Nanoscale Physics; Superconductivity; Quantum simulation; Dynamical mean-field theory; Superconducting circuits
Zusammenfassung:
We study a proof-of-principle example of the recently proposed hybrid quantum-classical simulation of strongly correlated fermion models in the thermodynamic limit. In a ‘two-site’ dynamical mean-field theory (DMFT) approach we reduce the Hubbard model to an effective impurity model subject to self-consistency conditions. The resulting minimal two-site representation of the non-linear hybrid setup involves four qubits implementing the impurity problem, plus an ancilla qubit on which all measurements are performed. We outline a possible implementation with superconducting circuits feasible with near-future technology.