Litcius/Paper detail

Chiral Spin Liquid Phase of the Triangular Lattice Hubbard Model: A Density Matrix Renormalization Group Study

Aaron Szasz, Johannes Motruk, Michael P. Zaletel, Joel E. Moore

2020eScholarship (California Digital Library)57 citations

Abstract

Motivated by experimental studies that have found signatures of a quantum spin liquid phase in organic crystals whose structure is well described by the two-dimensional triangular lattice, we study the Hubbard model on this lattice at half filling using the infinite-system density matrix renormalization group (iDMRG) method. On infinite cylinders with finite circumference, we identify an intermediate phase between observed metallic behavior at low interaction strength and Mott insulating spin-ordered behavior at strong interactions. Chiral ordering from spontaneous breaking of time-reversal symmetry, a fractionally quantized spin Hall response, and characteristic level statistics in the entanglement spectrum in the intermediate phase provide strong evidence for the existence of a chiral spin liquid in the full two-dimensional limit of the model.

Topics & Concepts

Density matrix renormalization groupHubbard modelCondensed matter physicsPhysicsRenormalization groupHexagonal latticeMott insulatorQuantum spin liquidLattice (music)Quantum entanglementSpin (aerodynamics)Quantum mechanicsQuantumSuperconductivitySpin polarizationElectronThermodynamicsAcousticsAntiferromagnetismAdvanced Condensed Matter PhysicsQuantum many-body systemsPhysics of Superconductivity and Magnetism
Chiral Spin Liquid Phase of the Triangular Lattice Hubbard Model: A Density Matrix Renormalization Group Study | Litcius