Self-consistent solution for the Hubbard model at the two-particle and one-particle level using the parquet formalism.
ORAL
Abstract
The parquet Formalism is used to solve self-consistently, both at the one-particle and at the two-particle levels, the Hubbard model on a 2-D square lattice. The parquet equation and the Bethe-Salpeter equation are combined into one Newton fixed point problem which is then solved by taking advantage of the existing linear solvers such as GMRES and BiCGStab. Some quantities of interest are calculated and the results are compared to those of Determinental Quantum Monte Carlo (DQMC). We also discuss the importance of this work in the multiscale treatment of the High Tc Cuprates.
–
Authors
-
Herbert Fotso
University of Cincinnati, Louisiana State University
-
Shuxiang Yang
University of Cincinnati, Louisiana State University
-
Jun Liu
University of Cincinnati, Louisiana State University
-
Mark Jarrell
Department of Physics and Astronomy, Louisiana State University, Louisiana State University, University of Cincinnati
-
Eduardo D'Azevedo
Oak Ridge National Laboratory
-
Thomas Maier
Oak Ridge National Laboratory, Oak Ridge National Lab
-
Karen Tomko
Ohio Supercomputer Center
-
Richard Scalettar
University of California - Davis