Zeno crossovers in the entanglement speed of spin chains with noisy impurities

Abhijit P. Chaudhari; Shane P. Kelly; Riccardo J. Valencia-Tortora; Jamir Marino

doi:10.1088/1742-5468/ac8e5d

Zeno crossovers in the entanglement speed of spin chains with noisy impurities

Abhijit P. Chaudhari
, Shane P. Kelly
, Riccardo J. Valencia-Tortora
, Jamir Marino

Physics

Banaras Hindu University
Johannes Gutenberg University Mainz

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We use a noisy signal with finite correlation time to drive a spin (dissipative impurity) in the quantum XY spin chain and calculate the dynamics of entanglement entropy (EE) of a bipartition of spins, for a stochastic quantum trajectory. We compute the noise averaged EE of a bipartition of spins and observe that its speed of spreading decreases at strong dissipation, as a result of the Zeno effect. We recover the Zeno crossover and show that noise averaged EE can be used as a proxy for the heating and Zeno regimes. Upon increasing the correlation time of the noise, the location of the Zeno crossover shifts at stronger dissipation, extending the heating regime.

Original language	English
Article number	103101
Journal	Journal of Statistical Mechanics: Theory and Experiment
Volume	2022
Issue number	10
DOIs	https://doi.org/10.1088/1742-5468/ac8e5d
State	Published - Oct 1 2022

Keywords

entanglement entropies
quantum dissipative systems
solvable lattice models
spin chains, ladders and planes

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10.1088/1742-5468/ac8e5d

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title = "Zeno crossovers in the entanglement speed of spin chains with noisy impurities",

abstract = "We use a noisy signal with finite correlation time to drive a spin (dissipative impurity) in the quantum XY spin chain and calculate the dynamics of entanglement entropy (EE) of a bipartition of spins, for a stochastic quantum trajectory. We compute the noise averaged EE of a bipartition of spins and observe that its speed of spreading decreases at strong dissipation, as a result of the Zeno effect. We recover the Zeno crossover and show that noise averaged EE can be used as a proxy for the heating and Zeno regimes. Upon increasing the correlation time of the noise, the location of the Zeno crossover shifts at stronger dissipation, extending the heating regime.",

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AU - Chaudhari, Abhijit P.

AU - Kelly, Shane P.

AU - Valencia-Tortora, Riccardo J.

AU - Marino, Jamir

PY - 2022/10/1

Y1 - 2022/10/1

N2 - We use a noisy signal with finite correlation time to drive a spin (dissipative impurity) in the quantum XY spin chain and calculate the dynamics of entanglement entropy (EE) of a bipartition of spins, for a stochastic quantum trajectory. We compute the noise averaged EE of a bipartition of spins and observe that its speed of spreading decreases at strong dissipation, as a result of the Zeno effect. We recover the Zeno crossover and show that noise averaged EE can be used as a proxy for the heating and Zeno regimes. Upon increasing the correlation time of the noise, the location of the Zeno crossover shifts at stronger dissipation, extending the heating regime.

AB - We use a noisy signal with finite correlation time to drive a spin (dissipative impurity) in the quantum XY spin chain and calculate the dynamics of entanglement entropy (EE) of a bipartition of spins, for a stochastic quantum trajectory. We compute the noise averaged EE of a bipartition of spins and observe that its speed of spreading decreases at strong dissipation, as a result of the Zeno effect. We recover the Zeno crossover and show that noise averaged EE can be used as a proxy for the heating and Zeno regimes. Upon increasing the correlation time of the noise, the location of the Zeno crossover shifts at stronger dissipation, extending the heating regime.

KW - entanglement entropies

KW - quantum dissipative systems

KW - solvable lattice models

KW - spin chains, ladders and planes

UR - https://www.scopus.com/pages/publications/85139559515

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DO - 10.1088/1742-5468/ac8e5d

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AN - SCOPUS:85139559515

SN - 1742-5468

VL - 2022

JO - Journal of Statistical Mechanics: Theory and Experiment

JF - Journal of Statistical Mechanics: Theory and Experiment

IS - 10

M1 - 103101

ER -

Zeno crossovers in the entanglement speed of spin chains with noisy impurities

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