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Geometric approach to inhomogeneous Floquet systems

Bastien Lapierre, Per Moosavi

2021Physical review. B./Physical review. B57 citationsDOIOpen Access PDF

Abstract

We present a new geometric approach to Floquet many-body systems described by inhomogeneous conformal field theory in $1+1$ dimensions. It is based on an exact correspondence with dynamical systems on the circle that we establish and use to prove existence of (non)heating phases characterized by the (absence) presence of fixed or higher-periodic points of coordinate transformations encoding the time evolution: Heating corresponds to energy and excitations concentrating exponentially fast at unstable such points while nonheating to pseudoperiodic motion. We show that the heating rate (serving as the order parameter for transitions between these two) can have cusps, even within the overall heating phase, and that there is a rich structure of phase diagrams with different heating phases distinguishable through kinks in the entanglement entropy, reminiscent of Lifshitz phase transitions. Our geometric approach generalizes previous results for a subfamily of similar systems that used only the $\mathfrak{sl}(2)$ algebra to general smooth deformations that require the full infinite-dimensional Virasoro algebra, and we argue that it has wider applicability, even beyond conformal field theory.

Topics & Concepts

Floquet theoryMathematicsTheoretical physicsGeologyPhysicsQuantum mechanicsNonlinear systemAlgebraic structures and combinatorial modelsTopological Materials and PhenomenaQuantum many-body systems