Strong Coupling Superconductivity, Pseudogap, and Mott Transition

Sordi, G.; Sémon, P.; Haule, K.; Tremblay, A.-M. S.

doi:10.1103/PhysRevLett.108.216401

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Strong Coupling Superconductivity, Pseudogap, and Mott Transition

Author(s): G. Sordi , P. Sémon , K. Haule , A.-M. S. Tremblay

Publication date (Electronic): May 23 2012

Journal: Physical Review Letters

Publisher: American Physical Society (APS)

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d-wave pairing near a spin-density-wave instability

D. Scalapino, E T Loh, J. E. Hirsch (1986)

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Continuous-time solver for quantum impurity models.

Philipp Werner, Armin Comanac, Luca de' Medici … (2006)

We present a new continuous-time solver for quantum impurity models such as those relevant to dynamical mean field theory. It is based on a stochastic sampling of a perturbation expansion in the impurity-bath hybridization parameter. Comparisons with Monte Carlo and exact diagonalization calculations confirm the accuracy of the new approach, which allows very efficient simulations even at low temperatures and for strong interactions. As examples of the power of the method we present results for the temperature dependence of the kinetic energy and the free energy, enabling an accurate location of the temperature-driven metal-insulator transition.