Related papers: The dynamical $α$-Rényi entropies of local Hamiltonians grow at most linearly in time

The dynamical $α$-Rényi entropies of local Hamiltonians grow at most linearly in time

URL: http://arxiv.org/abs/2408.00743v2
Date: Mon, 12 Aug 2024 15:39:03 GMT
Title: The dynamical $α$-Rényi entropies of local Hamiltonians grow at most linearly in time
Authors: Daniele Toniolo, Sougato Bose,
Abstract summary: We consider a generic one dimensional spin system of length $ L $, arbitrarily large, with strictly local interactions. We prove that the dynamical $ alpha $-R'enyi entropies, $ 0 alpha 1 $, of an initial product state grow at most linearly in time.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We consider a generic one dimensional spin system of length $ L $, arbitrarily large, with strictly local interactions, for example nearest neighbor, and prove that the dynamical $ \alpha $-R\'enyi entropies, $ 0 < \alpha < 1 $, of an initial product state grow at most linearly in time. This result arises from a general relation among dynamical $ \alpha $-R\'enyi entropies and Lieb-Robinson bounds. We extend our bound on the dynamical generation of entropy to systems with exponential decay of interactions, for values of $\alpha$ close enough to $ 1 $. We provide a non rigorous argument to extend our results to initial pure states with low entanglement of $ O(\log L) $. This class of states includes many examples of spin systems ground states, and also critical states. We establish that low entanglement states have an efficient MPS representation that persists at least up to times of order $ \log L $. The main technical tools are the Lieb-Robinson bounds, to locally approximate the dynamics of the spin chain, a strict upper bound of Audenaert on $ \alpha $-R\'enyi entropies and a bound on their concavity. Such a bound, that we provide in an appendix, can be of independent interest.

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