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Measurement-Induced Lévy Flights of Quantum Information

Igor Poboiko, Marcin Szyniszewski, Christopher J. Turner, I. V. Gornyi, A. D. Mirlin, Arijeet Pal

2025Physical Review Letters8 citationsDOIOpen Access PDF

Abstract

We explore a model of free fermions in one dimension, subject to frustrated (noncommuting) local measurements across adjacent sites, which resolves the fermions into nonorthogonal orbitals, misaligned from the underlying lattice. For maximal misalignment, superdiffusive behavior emerges from the vanishing of the measurement-induced quasiparticle decay rate at one point in the Brillouin zone, which generates fractal-scaling entanglement entropy S∝ℓ^{1/3} for a subsystem of length ℓ. We derive an effective nonlinear sigma model with long-range couplings responsible for Lévy flights in entanglement propagation, which we confirm with large-scale numerical simulations. When the misalignment is reduced, the entanglement exhibits, with increasing ℓ, consecutive regimes of superdiffusive, S∝ℓ^{1/3}, diffusive, S∝lnℓ, and localized, S=const, behavior. Our findings show how intricate fractal-scaling entanglement can be produced for local Hamiltonians and measurements.

Topics & Concepts

Quantum entanglementPhysicsFermionBrillouin zoneQuasiparticleQuantum mechanicsEntropy (arrow of time)QuantumNonlinear systemStatistical physicsSigmaQuantum informationTheoretical physicsQuantum electrodynamicsPoint (geometry)Squashed entanglementQuantum discordIdentical particlesClassical mechanicsQuantum many-body systemsQuantum Information and CryptographyQuantum Computing Algorithms and Architecture
Measurement-Induced Lévy Flights of Quantum Information | Litcius