Classical dissipative cost of quantum control

Anthony Kiely; Steve Campbell; Gabriel T. Landi

doi:10.1103/PhysRevA.106.012202

Classical dissipative cost of quantum control

Anthony Kiely
, Steve Campbell
, Gabriel T. Landi

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

Abstract

Protocols for nonadiabatic quantum control often require the use of classical time-varying fields. Assessing the thermodynamic cost of such protocols, however, is far from trivial. Here, we study the irreversible entropy produced by the classical apparatus generating the control fields, thus providing a direct link between the cost of a control protocol and dissipation. We focus, in particular, on the case of time-dependent magnetic fields and shortcuts to adiabaticity. Our results are showcased with two experimentally realizable case studies: the Landau-Zener model of a spin-12 particle in a magnetic field and an ion confined in a Penning trap.

Original language	English
Article number	012202
Journal	Physical Review A
Volume	106
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.106.012202
Publication status	Published - Jul 2022
Externally published	Yes

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10.1103/PhysRevA.106.012202

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abstract = "Protocols for nonadiabatic quantum control often require the use of classical time-varying fields. Assessing the thermodynamic cost of such protocols, however, is far from trivial. Here, we study the irreversible entropy produced by the classical apparatus generating the control fields, thus providing a direct link between the cost of a control protocol and dissipation. We focus, in particular, on the case of time-dependent magnetic fields and shortcuts to adiabaticity. Our results are showcased with two experimentally realizable case studies: the Landau-Zener model of a spin-12 particle in a magnetic field and an ion confined in a Penning trap.",

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AB - Protocols for nonadiabatic quantum control often require the use of classical time-varying fields. Assessing the thermodynamic cost of such protocols, however, is far from trivial. Here, we study the irreversible entropy produced by the classical apparatus generating the control fields, thus providing a direct link between the cost of a control protocol and dissipation. We focus, in particular, on the case of time-dependent magnetic fields and shortcuts to adiabaticity. Our results are showcased with two experimentally realizable case studies: the Landau-Zener model of a spin-12 particle in a magnetic field and an ion confined in a Penning trap.

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Classical dissipative cost of quantum control

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