Ferris wheel patterning of Rydberg atoms using electromagnetically induced transparency with optical vortex fields

Hamid R. Hamedi; Viaceslav Kudriasov; Ning Jia; Jing Qian; Gediminas Juzeliunas

doi:10.1364/OL.427000

Ferris wheel patterning of Rydberg atoms using electromagnetically induced transparency with optical vortex fields

Hamid R. Hamedi^*
, Viaceslav Kudriasov
, Ning Jia
, Jing Qian
, Gediminas Juzeliunas

^*Corresponding author for this work

School of Physics and Electronic Science

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

We study the formation of spatially dependent electromagnetically induced transparency (EIT) patterns from pairs of Laguerre-Gauss (LG) modes in an ensemble of cold interacting Rydberg atoms. The EIT patterns can be generated when two-photon detuning does not compensate for the Rydberg level energy shift induced by van derWaals interaction. Depending on the topological numbers of each LG mode, we can pattern dark and bright Ferris-wheel-like structures in the absorption profile with tunable barriers between sites, providing confinement of Rydberg atoms in transverse direction while rendering them transparent to light at specific angular positions. We also show how the atomic density may affect the azimuthal modulation of the absorption profile.

Original language	English
Pages (from-to)	4204-4207
Number of pages	4
Journal	Optics Letters
Volume	46
Issue number	17
DOIs	https://doi.org/10.1364/OL.427000
State	Published - 1 Sep 2021

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title = "Ferris wheel patterning of Rydberg atoms using electromagnetically induced transparency with optical vortex fields",

abstract = "We study the formation of spatially dependent electromagnetically induced transparency (EIT) patterns from pairs of Laguerre-Gauss (LG) modes in an ensemble of cold interacting Rydberg atoms. The EIT patterns can be generated when two-photon detuning does not compensate for the Rydberg level energy shift induced by van derWaals interaction. Depending on the topological numbers of each LG mode, we can pattern dark and bright Ferris-wheel-like structures in the absorption profile with tunable barriers between sites, providing confinement of Rydberg atoms in transverse direction while rendering them transparent to light at specific angular positions. We also show how the atomic density may affect the azimuthal modulation of the absorption profile.",

author = "Hamedi, \{Hamid R.\} and Viaceslav Kudriasov and Ning Jia and Jing Qian and Gediminas Juzeliunas",

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AU - Hamedi, Hamid R.

AU - Kudriasov, Viaceslav

AU - Jia, Ning

AU - Qian, Jing

AU - Juzeliunas, Gediminas

PY - 2021/9/1

Y1 - 2021/9/1

N2 - We study the formation of spatially dependent electromagnetically induced transparency (EIT) patterns from pairs of Laguerre-Gauss (LG) modes in an ensemble of cold interacting Rydberg atoms. The EIT patterns can be generated when two-photon detuning does not compensate for the Rydberg level energy shift induced by van derWaals interaction. Depending on the topological numbers of each LG mode, we can pattern dark and bright Ferris-wheel-like structures in the absorption profile with tunable barriers between sites, providing confinement of Rydberg atoms in transverse direction while rendering them transparent to light at specific angular positions. We also show how the atomic density may affect the azimuthal modulation of the absorption profile.

AB - We study the formation of spatially dependent electromagnetically induced transparency (EIT) patterns from pairs of Laguerre-Gauss (LG) modes in an ensemble of cold interacting Rydberg atoms. The EIT patterns can be generated when two-photon detuning does not compensate for the Rydberg level energy shift induced by van derWaals interaction. Depending on the topological numbers of each LG mode, we can pattern dark and bright Ferris-wheel-like structures in the absorption profile with tunable barriers between sites, providing confinement of Rydberg atoms in transverse direction while rendering them transparent to light at specific angular positions. We also show how the atomic density may affect the azimuthal modulation of the absorption profile.

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SP - 4204

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JO - Optics Letters

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IS - 17

ER -

Ferris wheel patterning of Rydberg atoms using electromagnetically induced transparency with optical vortex fields

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