Quantum-corrected Floquet dynamics in the Rabi model
Quantum-corrected Floquet dynamics in the Rabi model
Semiclassical descriptions of the dynamics of a few-level system coupled to a mode of the electromagnetic field which effectively reduce the contribution of the field to a time-dependent term in the Hamiltonian of the few-level system are widely used. For example, such an approach is typically taken in quantum control applications. However, the underlying quantum character of the field will lead to corrections to the semiclassical dynamics which, given sufficient time, can lead to significant changes. Here we develop an approach for calculating these quantum corrections systematically, building on the time-dependent Floquet dynamics that emerges in the semiclassical limit. Using the Rabi model of a spin--field system as an illustrative example, we obtain approximate analytic expressions for the first-order quantum corrections to the semiclassical dynamics of the spin for a range of initial field states. These expressions describe the initial stages of the full quantum dynamics accurately, though they eventually fail for sufficiently long times. Our work has relevance both for understanding the fundamental properties of emergent semiclassical behavior and as a potential tool for assessing corrections to semiclassical control techniques.
quant-ph
Twyeffort, E.K.
b78b8d7c-c747-4437-bb6f-189186713998
Armour, A.D.
b0fcf7e8-1326-4a7a-81fb-6054a3cd4e12
20 June 2025
Twyeffort, E.K.
b78b8d7c-c747-4437-bb6f-189186713998
Armour, A.D.
b0fcf7e8-1326-4a7a-81fb-6054a3cd4e12
[Unknown type: UNSPECIFIED]
Abstract
Semiclassical descriptions of the dynamics of a few-level system coupled to a mode of the electromagnetic field which effectively reduce the contribution of the field to a time-dependent term in the Hamiltonian of the few-level system are widely used. For example, such an approach is typically taken in quantum control applications. However, the underlying quantum character of the field will lead to corrections to the semiclassical dynamics which, given sufficient time, can lead to significant changes. Here we develop an approach for calculating these quantum corrections systematically, building on the time-dependent Floquet dynamics that emerges in the semiclassical limit. Using the Rabi model of a spin--field system as an illustrative example, we obtain approximate analytic expressions for the first-order quantum corrections to the semiclassical dynamics of the spin for a range of initial field states. These expressions describe the initial stages of the full quantum dynamics accurately, though they eventually fail for sufficiently long times. Our work has relevance both for understanding the fundamental properties of emergent semiclassical behavior and as a potential tool for assessing corrections to semiclassical control techniques.
Text
2506.17034v1
- Author's Original
Available under License Other.
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Published date: 20 June 2025
Keywords:
quant-ph
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Local EPrints ID: 504600
URI: http://eprints.soton.ac.uk/id/eprint/504600
PURE UUID: 9a21298d-cfad-4273-92f6-5f793ec89c2e
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Date deposited: 16 Sep 2025 16:43
Last modified: 17 Sep 2025 01:51
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Author:
A.D. Armour
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