Publication | Open Access
Hybridization expansion impurity solver: General formulation and application to Kondo lattice and two-orbital models
427
Citations
24
References
2006
Year
Quantum DynamicGeneral FormulationEngineeringQuantum Lattice SystemMany-body Quantum PhysicContinuous Time SolverComputational ChemistryElectronic StructureQuantum ComputingNumerical SimulationQuantum MaterialsQuantum SciencePhysicsTwo-orbital ModelsQuantum Field TheoryAtomic PhysicsQuantum ChemistryKondo LatticeSolid-state PhysicAb-initio MethodQuantum Impurity ModelsNatural SciencesCondensed Matter PhysicsApplied PhysicsDisordered Quantum SystemLattice Field Theory
A recently developed continuous time solver based on an expansion in hybridization about an exactly solved local limit is reformulated in a manner appropriate for general classes of quantum impurity models including spin exchange and pair hopping terms. The utility of the approach is demonstrated via applications to the dynamical mean field theory of the Kondo lattice and two-orbital models. The algorithm can handle low temperatures and strong couplings without encountering a sign problem.
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