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Main Authors: Espinós, Hilario, Cangemi, Loris Maria, Levy, Amikam, Puebla, Ricardo, Torrontegui, Erik
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2309.05469
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author Espinós, Hilario
Cangemi, Loris Maria
Levy, Amikam
Puebla, Ricardo
Torrontegui, Erik
author_facet Espinós, Hilario
Cangemi, Loris Maria
Levy, Amikam
Puebla, Ricardo
Torrontegui, Erik
contents Quantum many-body systems are emerging as key elements in the quest for quantum-based technologies and in the study of fundamental physics. In this study, we address the challenge of achieving fast and high-fidelity evolutions across quantum phase transitions, a crucial requirement for practical applications. We introduce a control technique based on dynamical invariants tailored to ensure adiabatic-like evolution within the lowest-energy subspace of the many-body systems described by the transverse-field Ising and long-range Kitaev models. By tuning the controllable parameter according to analytical control results, we achieve high-fidelity evolutions operating close to the speed limit. Remarkably, our approach leads to the breakdown of Kibble-Zurek scaling laws, offering tunable and significantly improved time scaling behavior. We provide detailed numerical simulations to illustrate our findings, demonstrating scalability with the system size and robustness against noisy controls and disorder, as well as its applicability to a non-integrable system.
format Preprint
id arxiv_https___arxiv_org_abs_2309_05469
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Invariant-based control of quantum many-body systems across critical points
Espinós, Hilario
Cangemi, Loris Maria
Levy, Amikam
Puebla, Ricardo
Torrontegui, Erik
Quantum Physics
Quantum many-body systems are emerging as key elements in the quest for quantum-based technologies and in the study of fundamental physics. In this study, we address the challenge of achieving fast and high-fidelity evolutions across quantum phase transitions, a crucial requirement for practical applications. We introduce a control technique based on dynamical invariants tailored to ensure adiabatic-like evolution within the lowest-energy subspace of the many-body systems described by the transverse-field Ising and long-range Kitaev models. By tuning the controllable parameter according to analytical control results, we achieve high-fidelity evolutions operating close to the speed limit. Remarkably, our approach leads to the breakdown of Kibble-Zurek scaling laws, offering tunable and significantly improved time scaling behavior. We provide detailed numerical simulations to illustrate our findings, demonstrating scalability with the system size and robustness against noisy controls and disorder, as well as its applicability to a non-integrable system.
title Invariant-based control of quantum many-body systems across critical points
topic Quantum Physics
url https://arxiv.org/abs/2309.05469