Talbot self-imaging and two-photon interference in ring-core fibers

Matias  Eriksson; Benjamin A.  Stickler; Lea Kopf; Markus Hiekkamäki; Regina Gumenyuk; Yuri Chamorovskiy; Sven Ramelow; Robert  Fickler

doi:10.1103/physreva.104.063512

Talbot self-imaging and two-photon interference in ring-core fibers

Matias Eriksson
, Benjamin A. Stickler
, Lea Kopf
, Markus Hiekkamäki
, Regina Gumenyuk
, Yuri Chamorovskiy
, Sven Ramelow
, Robert Fickler^*

^*Corresponding author for this work

Not published at VTT

Tampere University

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

7 Citations (Scopus)

Abstract

Wave propagation on the surface of cylinders exhibits interferometric self-imaging, much like the Talbot effect in the near-field diffraction at periodic gratings. We report the experimental observation of the cylindrical Talbot carpet in weakly guiding ring-core fibers for classical light fields. We further show that the ring-core fiber acts as a higher-order optical beamsplitter for single photons, whose output can be controlled by the relative phase between the input light fields. By also demonstrating high-quality two-photon interference between indistinguishable photons sent into the ring-core fiber, our findings open the door to applications in optical telecommunications as a compact beam multiplexer as well as in quantum information processing tasks as a scalable realization of a linear optical network.

Original language	English
Article number	063512
Journal	Physical Review A
Volume	104
DOIs	https://doi.org/10.1103/physreva.104.063512
Publication status	Published - 15 Dec 2021
MoE publication type	A1 Journal article-refereed

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10.1103/physreva.104.063512

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title = "Talbot self-imaging and two-photon interference in ring-core fibers",

abstract = "Wave propagation on the surface of cylinders exhibits interferometric self-imaging, much like the Talbot effect in the near-field diffraction at periodic gratings. We report the experimental observation of the cylindrical Talbot carpet in weakly guiding ring-core fibers for classical light fields. We further show that the ring-core fiber acts as a higher-order optical beamsplitter for single photons, whose output can be controlled by the relative phase between the input light fields. By also demonstrating high-quality two-photon interference between indistinguishable photons sent into the ring-core fiber, our findings open the door to applications in optical telecommunications as a compact beam multiplexer as well as in quantum information processing tasks as a scalable realization of a linear optical network.",

author = "Matias Eriksson and Stickler, \{Benjamin A.\} and Lea Kopf and Markus Hiekkam{\"a}ki and Regina Gumenyuk and Yuri Chamorovskiy and Sven Ramelow and Robert Fickler",

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doi = "10.1103/physreva.104.063512",

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T1 - Talbot self-imaging and two-photon interference in ring-core fibers

AU - Eriksson, Matias

AU - Stickler, Benjamin A.

AU - Kopf, Lea

AU - Hiekkamäki, Markus

AU - Gumenyuk, Regina

AU - Chamorovskiy, Yuri

AU - Ramelow, Sven

AU - Fickler, Robert

PY - 2021/12/15

Y1 - 2021/12/15

N2 - Wave propagation on the surface of cylinders exhibits interferometric self-imaging, much like the Talbot effect in the near-field diffraction at periodic gratings. We report the experimental observation of the cylindrical Talbot carpet in weakly guiding ring-core fibers for classical light fields. We further show that the ring-core fiber acts as a higher-order optical beamsplitter for single photons, whose output can be controlled by the relative phase between the input light fields. By also demonstrating high-quality two-photon interference between indistinguishable photons sent into the ring-core fiber, our findings open the door to applications in optical telecommunications as a compact beam multiplexer as well as in quantum information processing tasks as a scalable realization of a linear optical network.

AB - Wave propagation on the surface of cylinders exhibits interferometric self-imaging, much like the Talbot effect in the near-field diffraction at periodic gratings. We report the experimental observation of the cylindrical Talbot carpet in weakly guiding ring-core fibers for classical light fields. We further show that the ring-core fiber acts as a higher-order optical beamsplitter for single photons, whose output can be controlled by the relative phase between the input light fields. By also demonstrating high-quality two-photon interference between indistinguishable photons sent into the ring-core fiber, our findings open the door to applications in optical telecommunications as a compact beam multiplexer as well as in quantum information processing tasks as a scalable realization of a linear optical network.

UR - https://www.scopus.com/pages/publications/85121875913

U2 - 10.1103/physreva.104.063512

DO - 10.1103/physreva.104.063512

M3 - Article

SN - 2469-9926

VL - 104

JO - Physical Review A

JF - Physical Review A

M1 - 063512

ER -

Talbot self-imaging and two-photon interference in ring-core fibers

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