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Finite-temperature critical behaviors in 2D long-range quantum Heisenberg model

Jiarui Zhao, Menghan Song, Yang Qi, Junchen Rong, Zi Yang Meng

2023npj Quantum Materials22 citationsDOIOpen Access PDF

Abstract

Abstract The Mermin-Wagner theorem states that spontaneous continuous symmetry breaking is prohibited in systems with short-range interactions at spatial dimension D ≤ 2. For long-range interactions with a power-law form (1/ r α ), the theorem further forbids ferromagnetic or antiferromagnetic order at finite temperature when α ≥ 2 D . However, the situation for α ∈ (2, 4) at D = 2 is not covered by the theorem. To address this, we conduct large-scale quantum Monte Carlo simulations and field theoretical analysis. Our findings show spontaneous breaking of S U (2) symmetry in the ferromagnetic Heisenberg model with 1/ r α -form long-range interactions at D = 2. We determine critical exponents through finite-size analysis for α < 3 (above the upper critical dimension with Gaussian fixed point) and 3 ≤ α < 4 (below the upper critical dimension with non-Gaussian fixed point). These results reveal new critical behaviors in 2D long-range Heisenberg models, encouraging further experimental studies of quantum materials with long-range interactions beyond the Mermin-Wagner theorem’s scope.

Topics & Concepts

Quantum Monte CarloHeisenberg modelCritical exponentPhysicsDimension (graph theory)QuantumCritical point (mathematics)AntiferromagnetismGaussianSpontaneous symmetry breakingQuantum critical pointQuantum mechanicsSymmetry breakingSymmetry (geometry)Critical dimensionFerromagnetismContinuous symmetryMonte Carlo methodMathematical physicsMathematicsQuantum phase transitionGeometryPure mathematicsPhase transitionStatisticsTheoretical and Computational PhysicsQuantum many-body systemsPhysics of Superconductivity and Magnetism
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