Diagrammatic Quantum Monte Carlo solution of the two-dimensional Cooperon-Fermion model
arXiv:1103.3003 · doi:10.1103/PhysRevB.83.214516
Abstract
We investigate the two-dimensional cooperon-fermion model in the correlated regime with a new continuous-time diagrammatic determinant quantum Monte Carlo (DDQMC) algorithm. We estimate the transition temperature $T_{c}$, examine the effectively reduced band gap and cooperon mass, and find that delocalization of the cooperons enhances the diamagnetism. When applied to diamagnetism of the pseudogap phase in high-$T_{c}$ cuprates, we obtain results in a qualitative agreement with recent torque magnetization measurements.
8 pages, 11 figures