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Bibliographic Details
Main Authors: Camas-Aquino, F., Jáuregui, R.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.27558
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author Camas-Aquino, F.
Jáuregui, R.
author_facet Camas-Aquino, F.
Jáuregui, R.
contents The natural electromagnetic modes spontaneously emitted by an atom in free space are spherical vector waves (SVWs). Each SVW mode is uniquely linked to a specific dynamical--spherical--multipole--moment of the atomic system. In this work, we introduce a general formalism for evaluating spherical multipole transition rates under different boundary conditions, considering the superposition between a given SVW and the modes resulting from the boundary conditions. This formalism is applied to study the radiative properties of an atomic system trapped near the focus of a 4$π$ optical array. By appropriately selecting the external light field, the juxtaposed lenses of the optical array allow the atom to be illuminated with approximate spherical vector waves. Explicit expressions for the resulting multipole transition rates are presented as a function of the numerical aperture of the lenses. The feasibility of enhancing and inhibiting electric dipole-forbidden transitions using such an array, under current experimental capabilities, is briefly discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2605_27558
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Radiative Response of Atomic Systems Illuminated with Approximate Spherical Vector Waves
Camas-Aquino, F.
Jáuregui, R.
Atomic Physics
Optics
The natural electromagnetic modes spontaneously emitted by an atom in free space are spherical vector waves (SVWs). Each SVW mode is uniquely linked to a specific dynamical--spherical--multipole--moment of the atomic system. In this work, we introduce a general formalism for evaluating spherical multipole transition rates under different boundary conditions, considering the superposition between a given SVW and the modes resulting from the boundary conditions. This formalism is applied to study the radiative properties of an atomic system trapped near the focus of a 4$π$ optical array. By appropriately selecting the external light field, the juxtaposed lenses of the optical array allow the atom to be illuminated with approximate spherical vector waves. Explicit expressions for the resulting multipole transition rates are presented as a function of the numerical aperture of the lenses. The feasibility of enhancing and inhibiting electric dipole-forbidden transitions using such an array, under current experimental capabilities, is briefly discussed.
title Radiative Response of Atomic Systems Illuminated with Approximate Spherical Vector Waves
topic Atomic Physics
Optics
url https://arxiv.org/abs/2605.27558