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Interplay of disorder and interactions in a flat-band supporting diamond chain

Nilanjan Roy, Ajith Ramachandran, Auditya Sharma

2020Physical Review Research35 citationsDOIOpen Access PDF

Abstract

We systematically study the effect of disorder and interactions on a quasi-one-dimensional diamond chain possessing flat bands. Disorder localizes all the single-particle eigenstates, while at low disorder strengths, we obtain weak flat-band based localization (FBL), at high disorder strengths, we see conventional Anderson localization (AL). The compactly localized (CL) eigenstates of flat bands show a persisting oscillatory recurrence in the study of single-particle wave-packet dynamics. For low disorder, a damped oscillatory recurrence behavior is observed which is absent for high disorder. Noninteracting many-particle fermion states also follow the same trend except showing a delocalizing tendency at intermediate disorder due to the fermionic statistics in the system. As interactions are switched on, for the finite sizes that we are able to study, a nonergodic "mixed phase" is observed at low disorder which is separated from the MBL phase at high disorder by a thermal phase at intermediate disorder. A study of many-body nonequilibrium dynamics reinforces these findings.

Topics & Concepts

Condensed matter physicsDiamondChain (unit)Phase (matter)Non-equilibrium thermodynamicsAnderson localizationPhysicsEigenvalues and eigenvectorsThermalFermionMaterials scienceMolecular dynamicsQuantumStatistical physicsQuantum mechanicsChemistryGenetic disorderChemical physicsGapless playbackAdvanced Physical and Chemical Molecular InteractionsTopological Materials and PhenomenaQuantum many-body systems
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