Localized eigenmodes in a triangular multicore hollow optical fiber for space-division multiplexing in C+L band

Seongjin Hong; Kyunghwan Oh

doi:10.3807/COPP.2018.2.3.226

Localized eigenmodes in a triangular multicore hollow optical fiber for space-division multiplexing in C+L band

Seongjin Hong, Kyunghwan Oh

Department of Physics

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

3 Citations (Scopus)

Abstract

We propose a triangular-multicore hollow optical fiber (TMC-HOF) design for uncoupled mode-division and space-division multiplexing. The TMC-HOF has three triangular cores, and each core has three modes: LP₀₁ and two split LP₁₁ modes. The asymmetric structure of the triangular core can split the LP₁₁ modes. Using the proposed structures, nine independent modes can propagate in a fiber. We use a fully vectorial finite-element method to estimate effective index, chromatic dispersion, differential group delay (DGD), and confinement loss by controlling the parameters of the TMC-HOF structure. We confirm that the proposed TMC-HOF shows flattened chromatic dispersion, low DGD, low confinement loss, low core-to-core crosstalk, and low crosstalk between adjacent modes. The proposed TMC-HOF can provide a common platform for MDM and SDM applications.

Original language	English
Pages (from-to)	226-232
Number of pages	7
Journal	Current Optics and Photonics
Volume	2
Issue number	3
DOIs	https://doi.org/10.3807/COPP.2018.2.3.226
Publication status	Published - 2018

Bibliographical note

Publisher Copyright:
© 2018 Current Optics and Photonics.

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

Access to Document

10.3807/COPP.2018.2.3.226

Cite this

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abstract = "We propose a triangular-multicore hollow optical fiber (TMC-HOF) design for uncoupled mode-division and space-division multiplexing. The TMC-HOF has three triangular cores, and each core has three modes: LP01 and two split LP11 modes. The asymmetric structure of the triangular core can split the LP11 modes. Using the proposed structures, nine independent modes can propagate in a fiber. We use a fully vectorial finite-element method to estimate effective index, chromatic dispersion, differential group delay (DGD), and confinement loss by controlling the parameters of the TMC-HOF structure. We confirm that the proposed TMC-HOF shows flattened chromatic dispersion, low DGD, low confinement loss, low core-to-core crosstalk, and low crosstalk between adjacent modes. The proposed TMC-HOF can provide a common platform for MDM and SDM applications.",

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AU - Oh, Kyunghwan

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AB - We propose a triangular-multicore hollow optical fiber (TMC-HOF) design for uncoupled mode-division and space-division multiplexing. The TMC-HOF has three triangular cores, and each core has three modes: LP01 and two split LP11 modes. The asymmetric structure of the triangular core can split the LP11 modes. Using the proposed structures, nine independent modes can propagate in a fiber. We use a fully vectorial finite-element method to estimate effective index, chromatic dispersion, differential group delay (DGD), and confinement loss by controlling the parameters of the TMC-HOF structure. We confirm that the proposed TMC-HOF shows flattened chromatic dispersion, low DGD, low confinement loss, low core-to-core crosstalk, and low crosstalk between adjacent modes. The proposed TMC-HOF can provide a common platform for MDM and SDM applications.

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Localized eigenmodes in a triangular multicore hollow optical fiber for space-division multiplexing in C+L band

Abstract

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