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QUANTUM MONTE CARLO SIMULATIONS FOR THE THREE-BAND HUBBARD MODEL

Georg Dopf, Alejandro Muramatsu and Werner Hanke
Additional contact information
Georg Dopf: Physikalisches Institut, Universität Würzburg Am Hubland, 8700 Würzburg, Fed. Rep. of Germany
Alejandro Muramatsu: Physikalisches Institut, Universität Würzburg Am Hubland, 8700 Würzburg, Fed. Rep. of Germany
Werner Hanke: Physikalisches Institut, Universität Würzburg Am Hubland, 8700 Würzburg, Fed. Rep. of Germany

International Journal of Modern Physics C (IJMPC), 1992, vol. 03, issue 01, 79-96

Abstract: We present in this article results of Quantum Monte Carlo simulations for the three-band Hubbard model obtained both with the grand canonical approach as well as with theT=0formalism. A direct comparison of Quantum Monte Carlo results with experimental values for the charge-transfer gap leads to a set of parameters for the three-band Hubbard model that consistently describes salient features of the high-Tcsuperconductors. We find long-range antiferromagnetic order in the undoped case as well as an incommensurate structure for a doping concentration ofδ≈0.20. Moreover the magnetic susceptibility as a function of doping δ is in a qualitative agreement with experiments. Concerning dynamical properties, we have evaluated the spectral density$A\left( {\vec k,\,\omega } \right)$. The dispersion of the state with the lowest excitation energy is in very good agreement with experimental photoemission and inverse photoemission experiments for a doping concentration ofδ=0.25. In the superconducting regime, we find that the interaction vertex for the pairing correlation function in the extended s-channel shows a maximum forδ~0.20, resembling the dependence ofTcon doping. This feature is not present for other symmetries of the order parameter or in other parameter regions.

Keywords: Quantum Monte Carlo; High-Tc-Superconductivity (search for similar items in EconPapers)
Date: 1992
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DOI: 10.1142/S0129183192000075

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