V. Dorier scite author profile

We derive an exact and robust stimulated Raman process for nonlinear quantum systems driven by pulsed external fields. The external fields are designed with closed-form expressions from the inverse engineering of a given efficient and stable dynamics. This technique allows one to induce a controlled population inversion which surpasses the usual nonlinear stimulated Raman adiabatic passage efficiency.

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Canonical quantization for quantum plasmonics with finite nanostructures

Dorier

Lampart

Guérin

et al. 2019

Phys. Rev. A

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The quantization of plasmons has been analyzed mostly under the assumption of an infinite-sized bulk medium interacting with the electromagnetic field. We reformulate it for finite-size media, such as metallic or dielectric nano-structures, highlighting sharp differences. By diagonalizing the Hamiltonian by means of a Lippmann-Schwinger equation, we show the contribution of two sets of bosonic operators, one stemming from medium fluctuations, and one from the electromagnetic field. The results apply to general models including dissipative and dispersive responses.

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Critical review of quantum plasmonic models for finite-size media

Dorier

Guérin

Jauslin

2020

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AbstractWe provide a critical analysis of some of the commonly used theoretical models to describe quantum plasmons in finite size media. We summarize the standard approach based on a Fano diagonalization and we show explicit discrepancies in the obtained results by taking the limit of vanishing coupling between the electromagnetic field and the material medium. We then discuss the derivation of spontaneous emission in a plasmonic environment, which usually relies on a Green tensor and is based on an incomplete identity. The effect of the missing terms is calculated in a one-dimensional model.

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V. Dorier

Nonlinear Stimulated Raman Exact Passage by Resonance-Locked Inverse Engineering

Canonical quantization for quantum plasmonics with finite nanostructures

Critical review of quantum plasmonic models for finite-size media

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