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Long-lived period-doubled edge modes of interacting and disorder-free Floquet spin chains

Daniel J. Yates, Alexander G. Abanov, Aditi Mitra

2022Communications Physics45 citationsDOIOpen Access PDF

Abstract

Abstract Floquet spin chains have been a venue for understanding topological states of matter that are qualitatively different from their static counterparts by, for example, hosting π edge modes that show stable period-doubled dynamics. However the stability of these edge modes to interactions has traditionally required the system to be many-body localized in order to suppress heating. In contrast, here we show that even in the absence of disorder, and in the presence of bulk heating, π edge modes are long lived. Their lifetime is extracted from exact diagonalization and is found to be non-perturbative in the interaction strength. A tunneling estimate for the lifetime is obtained by mapping the stroboscopic time-evolution to dynamics of a single particle in Krylov subspace. In this subspace, the π edge mode manifests as the quasi-stable edge mode of an inhomogeneous Su-Schrieffer-Heeger model whose dimerization vanishes in the bulk of the Krylov chain.

Topics & Concepts

Floquet theoryPhysicsEnhanced Data Rates for GSM EvolutionKrylov subspaceCondensed matter physicsSubspace topologySpin (aerodynamics)Period (music)Time evolutionQuantum mechanicsLinear systemMathematicsMathematical analysisThermodynamicsAcousticsTelecommunicationsNonlinear systemComputer scienceQuantum many-body systemsTopological Materials and PhenomenaQuantum and electron transport phenomena