Related papers: Transfer of angular momentum of guided light to an atom with an electric quadrupole transition near an optical nanofiber

Transfer of angular momentum of guided light to an atom with an electric quadrupole transition near an optical nanofiber

URL: http://arxiv.org/abs/2205.12440v1
Date: Wed, 25 May 2022 02:04:01 GMT
Title: Transfer of angular momentum of guided light to an atom with an electric quadrupole transition near an optical nanofiber
Authors: Fam Le Kien, Sile Nic Chormaic, and Thomas Busch
Abstract summary: We study the transfer of angular momentum of guided photons to a two-level atom with an electric quadrupole transition near an optical nanofiber. We find that the torque depends on the photon angular momentum, the change in the angular momentum of the atomic internal state, and the quadrupole-transition Rabi frequency.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study the transfer of angular momentum of guided photons to a two-level atom with an electric quadrupole transition near an optical nanofiber. We show that the generation of the axial orbital torque of the driving guided field on the atom is governed by the internal-state selection rules for the quadrupole transition and by the angular momentum conservation law with the photon angular momentum given in the Minkowski formulation. We find that the torque depends on the photon angular momentum, the change in the angular momentum of the atomic internal state, and the quadrupole-transition Rabi frequency. We calculate numerically the torques for the quadrupole transitions between the sublevel $M=2$ of the hyperfine-structure level $5S_{1/2}F=2$ and the sublevels $M'=0$, 1, 2, 3, and 4 of the hyperfine-structure level $4D_{5/2}F'=4$ of a $^{87}$Rb atom. We show that the absolute value of the torque for the higher-order mode HE$_{21}$ is larger than that of the torque for the fundamental mode HE$_{11}$ except for the case $M'-M=2$, where the torque for the mode HE$_{21}$ is vanishing.

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