Is efficiency of classical simulations of quantum dynamics related to integrability?

Abstract

Efficiency of time-evolution of quantum observables, and thermal states of quenched hamiltonians, is studied using time-dependent density matrix renormalization group method in a family of generic quantum spin chains which undergo a transition from integrable to non-integrable - quantum chaotic case as control parameters are varied. Quantum states (observables) are represented in terms of matrix-product-operators with rank Dε(t), such that evolution of a long chain is accurate within fidelity error ε up to time t. We find that rank generally increases exponentially, Dε(t) (const t), unless the system is integrable in which case we find polynomial increase.

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