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Main Authors: Duncan, Callum W., Poggi, Pablo M., Bukov, Marin, Zinner, Nikolaj Thomas, Campbell, Steve
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.16436
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author Duncan, Callum W.
Poggi, Pablo M.
Bukov, Marin
Zinner, Nikolaj Thomas
Campbell, Steve
author_facet Duncan, Callum W.
Poggi, Pablo M.
Bukov, Marin
Zinner, Nikolaj Thomas
Campbell, Steve
contents Precise manipulation of quantum effects at the atomic and nanoscale has become an essential task in ongoing scientific and technological endeavours. Quantum control methods are thus routinely exploited for research in areas such as quantum materials, quantum chemistry, and atomic and molecular physics, as well as in the development of quantum technologies like computing, simulation, and sensing. Here, we present a pedagogical introduction to the basics of quantum control methods in tutorial form, with the aim of providing newcomers to the field with the core concepts and practical tools to use these methods in their research. We focus on three areas: shortcuts to adiabaticity, quantum optimal control, and machine-learning-based control. We lay out the basic theoretical elements of each area in a pedagogical way and describe their application to a series of example cases. For these, we include detailed analytical derivations as well as extensive numerical results. As an outlook, we discuss quantum control methods in the broader context of quantum technologies development and complex quantum systems research, outlining potential connections and synergies between them.
format Preprint
id arxiv_https___arxiv_org_abs_2501_16436
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Taming quantum systems: A tutorial for using shortcuts-to-adiabaticity, quantum optimal control, and reinforcement learning
Duncan, Callum W.
Poggi, Pablo M.
Bukov, Marin
Zinner, Nikolaj Thomas
Campbell, Steve
Quantum Physics
Precise manipulation of quantum effects at the atomic and nanoscale has become an essential task in ongoing scientific and technological endeavours. Quantum control methods are thus routinely exploited for research in areas such as quantum materials, quantum chemistry, and atomic and molecular physics, as well as in the development of quantum technologies like computing, simulation, and sensing. Here, we present a pedagogical introduction to the basics of quantum control methods in tutorial form, with the aim of providing newcomers to the field with the core concepts and practical tools to use these methods in their research. We focus on three areas: shortcuts to adiabaticity, quantum optimal control, and machine-learning-based control. We lay out the basic theoretical elements of each area in a pedagogical way and describe their application to a series of example cases. For these, we include detailed analytical derivations as well as extensive numerical results. As an outlook, we discuss quantum control methods in the broader context of quantum technologies development and complex quantum systems research, outlining potential connections and synergies between them.
title Taming quantum systems: A tutorial for using shortcuts-to-adiabaticity, quantum optimal control, and reinforcement learning
topic Quantum Physics
url https://arxiv.org/abs/2501.16436