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Strong coupling impurity solver based on quantics tensor cross interpolation

Aaram J. Kim, Philipp Werner

2025Physical review. B./Physical review. B13 citationsDOI

Abstract

Numerical methods capable of handling nonequilibrium impurity models are essential for the study of transport problems and the solution of the nonequilibrium dynamical mean-field theory (DMFT) equations. In the strong correlation regime, the self-consistently resummed hybridization expansion is an appealing strategy, which however has been employed so far mainly in the lowest-order noncrossing approximation. At higher orders, standard implementations become numerically costly, but a significant speed-up can be achieved by evaluating multidimensional integrals in an approximate factorized form. Here we develop a one-crossing approximation solver based on the recently introduced quantics tensor cross interpolation, and demonstrate its accuracy and efficiency with applications to the Anderson impurity model and nonequilibrium steady-state DMFT calculations for the Hubbard model.

Topics & Concepts

Interpolation (computer graphics)SolverImpurityTensor (intrinsic definition)Coupling (piping)PhysicsMathematicsGeometryMaterials scienceMathematical optimizationClassical mechanicsQuantum mechanicsMotion (physics)MetallurgyPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaElectromagnetic Simulation and Numerical Methods
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