Connecting hollow-core and standard single-mode fibers with perfect mode-field size adaptation
Connecting hollow-core and standard single-mode fibers with perfect mode-field size adaptation
We propose an approach to interconnect a hollow-core fiber (HCF) of arbitrary core size with standard single-modefiber with perfect mode-field size adaptation and experimentally achieve for the first time insertion loss agreeing with that
predicted by simulations. We demonstrate this using three low-loss HCFs, including 1st window nested antiresonant nodeless fiber (NANF), 2nd window NANF and the state-of-the-art double NANF (DNANF). The connection with a minimum achieved insertion loss of 0.079 dB was permanently secured via gluing
and did not degrade during 4 weeks of continuous measurement. To the best of our knowledge, this is the lowest reported value and is comparable to or lower than the connection between dissimilar single-mode fibers (e.g., standard single-mode fiber and dispersion-compensating fiber). We also show that such connection leads to excellent suppression of higher-order modes coupling, of importance to all applications sensitive to multi-path interference. Importantly, obtaining agreement between simulations and experiments validates for the first time the accuracy of the simulations and opens the door to further optimization via simulations with the ability to subsequently achieve the same result experimentally.
Zhong, Ailing
4dd4add1-12d2-4e78-828b-a60d2b57ff83
Numkam Fokoua, Eric
6d9f7e50-dc3b-440a-a0b9-f4a08dd02ccd
Ding, Meng
4ce864fb-eb5c-47d6-8902-7b3785a162d7
Dousek, Daniel
e7308d3b-fdcc-4d9f-ad98-bc905774c860
Suslov, Dmytro
5a67f33b-9b3a-428e-910e-9fbc8d1a6248
Zvanovec, Stanislav
037bcfba-8cc7-4f6f-8226-72d29fe7e636
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Slavík, Radan
2591726a-ecc0-4d1a-8e1d-4d0fd8da8f7d
Komanec, Matěj
b7039aca-b47b-4365-896b-f3574fd175eb
Zhong, Ailing
4dd4add1-12d2-4e78-828b-a60d2b57ff83
Numkam Fokoua, Eric
6d9f7e50-dc3b-440a-a0b9-f4a08dd02ccd
Ding, Meng
4ce864fb-eb5c-47d6-8902-7b3785a162d7
Dousek, Daniel
e7308d3b-fdcc-4d9f-ad98-bc905774c860
Suslov, Dmytro
5a67f33b-9b3a-428e-910e-9fbc8d1a6248
Zvanovec, Stanislav
037bcfba-8cc7-4f6f-8226-72d29fe7e636
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Slavík, Radan
2591726a-ecc0-4d1a-8e1d-4d0fd8da8f7d
Komanec, Matěj
b7039aca-b47b-4365-896b-f3574fd175eb
Zhong, Ailing, Numkam Fokoua, Eric, Ding, Meng, Dousek, Daniel, Suslov, Dmytro, Zvanovec, Stanislav, Poletti, Francesco, Slavík, Radan and Komanec, Matěj
(2023)
Connecting hollow-core and standard single-mode fibers with perfect mode-field size adaptation.
IEEE Journal of Lightwave Technology.
Abstract
We propose an approach to interconnect a hollow-core fiber (HCF) of arbitrary core size with standard single-modefiber with perfect mode-field size adaptation and experimentally achieve for the first time insertion loss agreeing with that
predicted by simulations. We demonstrate this using three low-loss HCFs, including 1st window nested antiresonant nodeless fiber (NANF), 2nd window NANF and the state-of-the-art double NANF (DNANF). The connection with a minimum achieved insertion loss of 0.079 dB was permanently secured via gluing
and did not degrade during 4 weeks of continuous measurement. To the best of our knowledge, this is the lowest reported value and is comparable to or lower than the connection between dissimilar single-mode fibers (e.g., standard single-mode fiber and dispersion-compensating fiber). We also show that such connection leads to excellent suppression of higher-order modes coupling, of importance to all applications sensitive to multi-path interference. Importantly, obtaining agreement between simulations and experiments validates for the first time the accuracy of the simulations and opens the door to further optimization via simulations with the ability to subsequently achieve the same result experimentally.
Text
Connecting_hollow_core_and_standard_single_mode_fibers_with_perfect_mode_field_size_adaptation__revised_with_red_highlights_
- Author's Original
More information
Submitted date: 2023
Accepted/In Press date: 29 October 2023
e-pub ahead of print date: 2 November 2023
Identifiers
Local EPrints ID: 483538
URI: http://eprints.soton.ac.uk/id/eprint/483538
ISSN: 0733-8724
PURE UUID: 25992c1c-1794-47a9-ba80-482006371ed8
Catalogue record
Date deposited: 01 Nov 2023 17:57
Last modified: 31 Oct 2024 05:01
Export record
Contributors
Author:
Ailing Zhong
Author:
Eric Numkam Fokoua
Author:
Meng Ding
Author:
Daniel Dousek
Author:
Dmytro Suslov
Author:
Stanislav Zvanovec
Author:
Francesco Poletti
Author:
Radan Slavík
Author:
Matěj Komanec
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics