Closed-Loop Polarization Mode Dispersion Mitigation for Fibre-Optic Time and Frequency Transfer

Thomas Fordell; Anders Wallin; Thomas Lindvall; Kalle Hanhijärvi

doi:10.1364/OL.547439

Closed-Loop Polarization Mode Dispersion Mitigation for Fibre-Optic Time and Frequency Transfer

SU1202 Electrical metrology

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

1 Citation (Scopus)

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Abstract

A polarization-switching pulse interleaver is shown to be effective in reducing timing noise due to polarization mode dispersion in time and frequency transfer based on mode-locked lasers and standard single-mode (SM) fibers. In closed-loop time transfer over a 30-km dispersion-compensated fiber link with 300 fs of differential group delay, polarization interleaving reduced the delay variations to <20 fs. The results indicate that the remaining drift is caused by polarization-dependent loss and by AM-to-PM noise conversion in the photodiodes, suggesting the need for a “double-balanced” phase detector in the receiver, i.e., a phase detector balanced in power and polarization. By mitigating the polarization dependence, this work demonstrates a simple approach that can potentially yield sub-femtosecond-level, long-term time transfer in long-haul fiber links utilizing standard single-mode fibers.

Original language	English
Pages (from-to)	1759-1762
Journal	Optics Letters
Volume	50
Issue number	6
DOIs	https://doi.org/10.1364/OL.547439
Publication status	Published - 15 Mar 2025
MoE publication type	A1 Journal article-refereed

Funding

European Metrology Programme for Innovation and Research (20FUN08 NEXTLASERS); Research Council of Finland (339821, 328786, 320168). The project 20FUN08 NEXTLASERS has received funding from the EMPIR program co-financed by the Participating States and from the European Union's Horizon 2020 Research and Innovation Programme. The work is also part of the Research Council of Finland Flagship Programme, Photonics Research and Innovation (PREIN), decision 320168.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

Access to Document

10.1364/OL.547439Licence: CC BY

OL.547439Final published version, 2.66 MBLicence: CC BY

Cite this

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title = "Closed-Loop Polarization Mode Dispersion Mitigation for Fibre-Optic Time and Frequency Transfer",

abstract = "A polarization-switching pulse interleaver is shown to be effective in reducing timing noise due to polarization mode dispersion in time and frequency transfer based on mode-locked lasers and standard single-mode (SM) fibers. In closed-loop time transfer over a 30-km dispersion-compensated fiber link with 300 fs of differential group delay, polarization interleaving reduced the delay variations to <20 fs. The results indicate that the remaining drift is caused by polarization-dependent loss and by AM-to-PM noise conversion in the photodiodes, suggesting the need for a “double-balanced” phase detector in the receiver, i.e., a phase detector balanced in power and polarization. By mitigating the polarization dependence, this work demonstrates a simple approach that can potentially yield sub-femtosecond-level, long-term time transfer in long-haul fiber links utilizing standard single-mode fibers.",

author = "Thomas Fordell and Anders Wallin and Thomas Lindvall and Kalle Hanhij{\"a}rvi",

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T1 - Closed-Loop Polarization Mode Dispersion Mitigation for Fibre-Optic Time and Frequency Transfer

AU - Fordell, Thomas

AU - Wallin, Anders

AU - Lindvall, Thomas

AU - Hanhijärvi, Kalle

PY - 2025/3/15

Y1 - 2025/3/15

N2 - A polarization-switching pulse interleaver is shown to be effective in reducing timing noise due to polarization mode dispersion in time and frequency transfer based on mode-locked lasers and standard single-mode (SM) fibers. In closed-loop time transfer over a 30-km dispersion-compensated fiber link with 300 fs of differential group delay, polarization interleaving reduced the delay variations to <20 fs. The results indicate that the remaining drift is caused by polarization-dependent loss and by AM-to-PM noise conversion in the photodiodes, suggesting the need for a “double-balanced” phase detector in the receiver, i.e., a phase detector balanced in power and polarization. By mitigating the polarization dependence, this work demonstrates a simple approach that can potentially yield sub-femtosecond-level, long-term time transfer in long-haul fiber links utilizing standard single-mode fibers.

AB - A polarization-switching pulse interleaver is shown to be effective in reducing timing noise due to polarization mode dispersion in time and frequency transfer based on mode-locked lasers and standard single-mode (SM) fibers. In closed-loop time transfer over a 30-km dispersion-compensated fiber link with 300 fs of differential group delay, polarization interleaving reduced the delay variations to <20 fs. The results indicate that the remaining drift is caused by polarization-dependent loss and by AM-to-PM noise conversion in the photodiodes, suggesting the need for a “double-balanced” phase detector in the receiver, i.e., a phase detector balanced in power and polarization. By mitigating the polarization dependence, this work demonstrates a simple approach that can potentially yield sub-femtosecond-level, long-term time transfer in long-haul fiber links utilizing standard single-mode fibers.

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DO - 10.1364/OL.547439

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JF - Optics Letters

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Closed-Loop Polarization Mode Dispersion Mitigation for Fibre-Optic Time and Frequency Transfer

Abstract

Funding

UN SDGs

Access to Document

Other files and links

Fingerprint

NEXTLASERS: Next generation ultrastable lasers: reducing thermal noise limit and overcoming technical limitations with new materials and technologies

EMPIR: European Metrology Programme for Innovation and Research (EMPIR)

Cite this

Closed-Loop Polarization Mode Dispersion Mitigation for Fibre-Optic Time and Frequency Transfer

Abstract

Funding

UN SDGs

Access to Document

Other files and links

Fingerprint

Projects

NEXTLASERS: Next generation ultrastable lasers: reducing thermal noise limit and overcoming technical limitations with new materials and technologies

EMPIR: European Metrology Programme for Innovation and Research (EMPIR)

Cite this