Guardado en:
Detalles Bibliográficos
Autores principales: Weidner, C. A., Reed, E. A., Monroe, J., Sheller, B., O'Neil, S., Maas, E., Jonckheere, E. A., Langbein, F. C., Schirmer, S. G.
Formato: Preprint
Publicado: 2023
Materias:
Acceso en línea:https://arxiv.org/abs/2401.00294
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
_version_ 1866917734955089920
author Weidner, C. A.
Reed, E. A.
Monroe, J.
Sheller, B.
O'Neil, S.
Maas, E.
Jonckheere, E. A.
Langbein, F. C.
Schirmer, S. G.
author_facet Weidner, C. A.
Reed, E. A.
Monroe, J.
Sheller, B.
O'Neil, S.
Maas, E.
Jonckheere, E. A.
Langbein, F. C.
Schirmer, S. G.
contents Robust control of quantum systems is an increasingly relevant field of study amidst the second quantum revolution, but there remains a gap between taming quantum physics and robust control in its modern analytical form that culminated in fundamental performance bounds. With certain exceptions such as quantum optical systems that can be modeled as linear stochastic differential equations, quantum systems are not amenable to linear, time-invariant, measurement-based robust control techniques, and thus novel gap-bridging techniques must be developed. This survey is written for control theorists to provide a review of the current state of quantum control and outline the challenges faced in trying to apply modern robust control to quantum systems. We present issues that arise when applying classical robust control theory to quantum systems, typical methods used by quantum physicists to explore such systems and their robustness, as well as a discussion of open problems to be addressed in the field. We focus on general, practical applications and recent work to enable control researchers to contribute to advancing this burgeoning field.
format Preprint
id arxiv_https___arxiv_org_abs_2401_00294
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Robust Quantum Control in Closed and Open Systems: Theory and Practice
Weidner, C. A.
Reed, E. A.
Monroe, J.
Sheller, B.
O'Neil, S.
Maas, E.
Jonckheere, E. A.
Langbein, F. C.
Schirmer, S. G.
Quantum Physics
Robust control of quantum systems is an increasingly relevant field of study amidst the second quantum revolution, but there remains a gap between taming quantum physics and robust control in its modern analytical form that culminated in fundamental performance bounds. With certain exceptions such as quantum optical systems that can be modeled as linear stochastic differential equations, quantum systems are not amenable to linear, time-invariant, measurement-based robust control techniques, and thus novel gap-bridging techniques must be developed. This survey is written for control theorists to provide a review of the current state of quantum control and outline the challenges faced in trying to apply modern robust control to quantum systems. We present issues that arise when applying classical robust control theory to quantum systems, typical methods used by quantum physicists to explore such systems and their robustness, as well as a discussion of open problems to be addressed in the field. We focus on general, practical applications and recent work to enable control researchers to contribute to advancing this burgeoning field.
title Robust Quantum Control in Closed and Open Systems: Theory and Practice
topic Quantum Physics
url https://arxiv.org/abs/2401.00294