On the validity of the rotating wave approximation for coupled harmonic oscillators

In this work we study the validity of the rotating wave approximation of an ideal system composed of two harmonic oscillators evolving with a quadratic Hamiltonian and arbitrarily strong interaction. We solve the dynamics analytically by employing tools from symplectic geometry. We focus on systems...

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Bibliographic Details
Published in:arXiv.org 2024-03
Main Authors: Heib, Tim, Lageyre, Paul, Ferreri, Alessandro, Wilhelm, Frank K, Paraoanu, G S, Burgarth, Daniel, Schell, Andreas Wolfgang, Bruschi, David Edward
Format: Article
Language:English
Subjects:
Approximation
Coupling
Deviation
Evolution
Fock state
Harmonic oscillators
Mathematical analysis
Resonant frequencies
Rotation
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Summary:In this work we study the validity of the rotating wave approximation of an ideal system composed of two harmonic oscillators evolving with a quadratic Hamiltonian and arbitrarily strong interaction. We solve the dynamics analytically by employing tools from symplectic geometry. We focus on systems with initial Gaussian states and quantify exactly the deviation between the state obtained through the rotating approximation and the state obtained through the full evolution, therefore providing an answer for all values of the coupling. We find that the squeezing present in the full Hamiltonian and in the initial state governs the deviation from the approximated evolution. Furthermore, we also show that the rotating wave approximation is recovered for resonant frequencies and vanishing coupling to frequency ratio. Finally, we give a general proof of the rotating wave approximation and estimate its convergence on Fock states. Applications and potential physical implementations are also discussed.
ISSN:2331-8422