A quantum phase transition and novel spin phases in the three-band Hubbard model
ORAL
Abstract
The three-band Hubbard model captures several key features of the Copper-Oxide planes in cuprate superconductors, and provides the simplest model beyond the minimal one-band Hubbard model. Combining extended mean-field calculations with cutting-edge correlated methodologies we are performing an extensive study of the model in the relevant regions of the parameter space. We address the nature of the spin and charge order, as well as of pairing correlations, as a function of the interaction strength and the charge transfer energy in the ground state of this model. We find evidence of a quantum phase transition at half-filling and very interesting novel spin states in the underdoped regime.
*We thank the Simons Foundation and NSF (Grant No. DMR-1409510) for their support. Computing was carried out at the Extreme Science and Engineering Discovery Environment (XSEDE), which is supported by National Science Foundation grant number ACI-1053575, and the High Performance Computational facilities facilities at William and Mary
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Presenters
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Ettore Vitali
- California State University, Fresno