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Scaling at quantum phase transitions above the upper critical dimension

Anja Langheld, Jan Alexander Koziol, Patrick Adelhardt, Sebastian C. Kapfer, Kai Phillip Schmidt

2022SciPost Physics27 citationsDOIOpen Access PDF

Abstract

The hyperscaling relation and standard finite-size scaling (FSS) are known to break down above the upper critical dimension due to dangerous irrelevant variables. We establish a coherent formalism for FSS at quantum phase transitions above the upper critical dimension following the recently introduced Q-FSS formalism for thermal phase transitions. Contrary to long-standing belief, the correlation sector is affected by dangerous irrelevant variables. The presented formalism recovers a generalized hyperscaling relation and FSS form. Using this new FSS formalism, we determine the full set of critical exponents for the long-range transverse-field Ising chain in all criticality regimes ranging from the nearest-neighbor to the long-range mean-field regime. For the same model, we also explicitly confirm the effect of dangerous irrelevant variables on the characteristic length scale.

Topics & Concepts

ScalingCritical dimensionFormalism (music)CriticalityStatistical physicsIsing modelPhase transitionPhysicsScaling dimensionCritical phenomenaQuantumCritical exponentQuantum phase transitionQuantum mechanicsQuantum field theoryMathematicsGeometryNuclear physicsArtMusicalVisual artsQuantum many-body systemsTheoretical and Computational PhysicsPhysics of Superconductivity and Magnetism