Litcius/Paper detail

Many-body localization in the interpolating Aubry-André-Fibonacci model

Antonio Štrkalj, Elmer V. H. Doggen, Igor V. Gornyi, Oded Zilberberg

2021Physical Review Research32 citationsDOIOpen Access PDF

Abstract

We investigate the localization properties of a spin chain with an antiferromagnetic nearest-neighbor coupling, subject to an external quasiperiodic on-site magnetic field. The quasiperiodic modulation interpolates between two paradigmatic models, namely the Aubry-Andr\'e and the Fibonacci models. We find that stronger many-body interactions extend the ergodic phase in the former, whereas they shrink it in the latter. Furthermore, the many-body localization transition points at the two limits of the interpolation appear to be continuously connected along the deformation of the quasiperiodic modulation. As a result, the position of the many-body localization transition depends on the interaction strength for an intermediate degree of deformation. Moreover, in the region of parameter space where the single-particle spectrum contains both localized and extended states, many-body interactions induce an anomalous effect: weak interactions localize the system, whereas stronger interactions enhance ergodicity. We map the model's localization phase diagram using the decay of the quenched spin imbalance in relatively long chains. This is accomplished employing a time-dependent variational approach applied to a matrix product state decomposition of the many-body state. Our model serves as a rich playground for testing many-body localization under tunable potentials.

Topics & Concepts

Quasiperiodic functionQuasiperiodicityPosition (finance)Fibonacci numberMathematicsPhysicsErgodic theoryAntiferromagnetismPhase diagramPhase transitionInterpolation (computer graphics)Matrix (chemical analysis)Statistical physicsSpin (aerodynamics)Cusp (singularity)Phase (matter)Filter (signal processing)Space (punctuation)PairingMathematical analysisDegree (music)Operator (biology)Parameter spaceEnvelope (radar)Spectrum (functional analysis)Phase spaceCondensed matter physicsQuantum many-body systemsTopological Materials and PhenomenaQuasicrystal Structures and Properties