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Intertwined spin, charge, and pair correlations in the two-dimensional Hubbard model in the thermodynamic limit

Peizhi Mai, Seher Karakuzu, Giovanni Balduzzi, Steven Johnston, Thomas Maier

2022Proceedings of the National Academy of Sciences59 citationsDOIOpen Access PDF

Abstract

The high-temperature superconducting cuprates are governed by intertwined spin, charge, and superconducting orders. While various state-of-the-art numerical methods have demonstrated that these phases also manifest themselves in doped Hubbard models, they differ on which is the actual ground state. Finite-cluster methods typically indicate that stripe order dominates, while embedded quantum-cluster methods, which access the thermodynamic limit by treating long-range correlations with a dynamical mean field, conclude that superconductivity does. Here, we report the observation of fluctuating spin and charge stripes in the doped single-band Hubbard model using a quantum Monte Carlo dynamical cluster approximation (DCA) method. By resolving both the fluctuating spin and charge orders using DCA, we demonstrate that they survive in the doped Hubbard model in the thermodynamic limit. This discovery also provides an opportunity to study the influence of fluctuating stripe correlations on the model's pairing correlations within a unified numerical framework. Using this approach, we also find evidence for pair-density-wave correlations whose strength is correlated with that of the stripes.

Topics & Concepts

Hubbard modelThermodynamic limitPhysicsPairingQuantum Monte CarloSpin (aerodynamics)Charge (physics)SuperconductivityCuprateCondensed matter physicsCluster (spacecraft)Statistical physicsGround stateLimit (mathematics)Strongly correlated materialMonte Carlo methodQuantum mechanicsElectronThermodynamicsComputer scienceMathematical analysisStatisticsProgramming languageMathematicsPhysics of Superconductivity and MagnetismAdvanced Condensed Matter PhysicsIron-based superconductors research
Intertwined spin, charge, and pair correlations in the two-dimensional Hubbard model in the thermodynamic limit | Litcius