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Hollow-core NANF for High-speed Short-reach Transmission in the S+C+L-bands

Hollow-core NANF for High-speed Short-reach Transmission in the S+C+L-bands
Hollow-core NANF for High-speed Short-reach Transmission in the S+C+L-bands
This dataset supports the publication: Yang Hong, Thomas D. Bradley, Natsupa Taengnoi, Kyle R. H. Bottrill, John R. Hayes, Gregory T. Jasion, Francesco Poletti, Periklis Petropoulos, and David J. Richardson (2021), 'Hollow-core NANF for High-speed Short-reach Transmission in the S+C+L-bands', IEEE/OSA Journal of Lightwave Technology, doi: 10.1109/JLT.2021.3097278 This dataset contains data supporting the following figures: Fig. 1. Numerical comparisons amongst the SSMF, NZ-DSF and NANF at a length of 5 km: (a) CD, (b) 3-dB bandwidth, (c) profiles of CD-induced power fading after 5-km 1550-nm transmission and (d) fibre latency at 1550 nm. Fig. 4. Comparisons of BER and SNR performance versus ROP of 1550-nm Nyquist PAM4 transmission in SSMF, B2B and NANF links at (a)-(b): 80 Gb/s, (c)-(d): 100 Gb/s, and (e)-(f): 112 Gb/s. Fig. 5. ROP in different links and the measured loss of the SSMF-connectorized NANF over S+C+L-bands. Fig. 6. Comparisons of BER and SNR performance across the S+C+L-bands of Nyquist PAM4 transmission in SSMF, B2B and NANF links at (a)-(b): 80 Gb/s, (c)-(d): 100 Gb/s, and (e)-(f): 112 Gb/s. Fig. 7. BER and average SNR versus number of data subcarriers for uniformly-loaded DDO-OFDM transmission in ~5-km SSMF and NANF. Fig. 8. SNR profiles of uniformly-loaded DDO-OFDM after ~5-km transmission in (a) NANF and (b) SSMF. Fig. 9. BER and average SNR versus ROP for 65.625-Gb/s uniformly-loaded 4QAM-DDO-OFDM transmission in ~5-km SSMF and NANF. Fig. 10. BER versus number of data subcarriers for adaptively-loaded DDO-OFDM transmission in ~5-km SSMF and NANF. Fig. 11. SNR profiles of adaptively-loaded DDO-OFDM after ~5-km transmission in (a) NANF and (b) SSMF. Fig. 12. Comparison of the maximum achievable capacity versus ROP in SSMF and NANF, and the corresponding BER.
University of Southampton
Hong, Yang
73d5144c-02db-4977-b517-0d2f5a052807
Bradley, Thomas
d4cce4f3-bb69-4e14-baee-cd6a88e38101
Taengnoi, Natsupa
1c9a8f38-f378-426c-9b5a-75e0bc165afd
Bottrill, Kyle
8c2e6c2d-9f14-424e-b779-43c23e2f49ac
Hayes, John
a6d3acd6-d7d5-4614-970e-0e8c594e48e2
Jasion, Gregory
16cfff1d-d178-41d1-a092-56e6239726b8
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Petropoulos, Periklis
522b02cc-9f3f-468e-bca5-e9f58cc9cad7
Richardson, David
ebfe1ff9-d0c2-4e52-b7ae-c1b13bccdef3
Hong, Yang
73d5144c-02db-4977-b517-0d2f5a052807
Bradley, Thomas
d4cce4f3-bb69-4e14-baee-cd6a88e38101
Taengnoi, Natsupa
1c9a8f38-f378-426c-9b5a-75e0bc165afd
Bottrill, Kyle
8c2e6c2d-9f14-424e-b779-43c23e2f49ac
Hayes, John
a6d3acd6-d7d5-4614-970e-0e8c594e48e2
Jasion, Gregory
16cfff1d-d178-41d1-a092-56e6239726b8
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Petropoulos, Periklis
522b02cc-9f3f-468e-bca5-e9f58cc9cad7
Richardson, David
ebfe1ff9-d0c2-4e52-b7ae-c1b13bccdef3

Hong, Yang, Bradley, Thomas, Taengnoi, Natsupa, Bottrill, Kyle, Hayes, John, Jasion, Gregory, Poletti, Francesco, Petropoulos, Periklis and Richardson, David (2021) Hollow-core NANF for High-speed Short-reach Transmission in the S+C+L-bands. University of Southampton doi:10.5258/SOTON/D1889 [Dataset]

Record type: Dataset

Abstract

This dataset supports the publication: Yang Hong, Thomas D. Bradley, Natsupa Taengnoi, Kyle R. H. Bottrill, John R. Hayes, Gregory T. Jasion, Francesco Poletti, Periklis Petropoulos, and David J. Richardson (2021), 'Hollow-core NANF for High-speed Short-reach Transmission in the S+C+L-bands', IEEE/OSA Journal of Lightwave Technology, doi: 10.1109/JLT.2021.3097278 This dataset contains data supporting the following figures: Fig. 1. Numerical comparisons amongst the SSMF, NZ-DSF and NANF at a length of 5 km: (a) CD, (b) 3-dB bandwidth, (c) profiles of CD-induced power fading after 5-km 1550-nm transmission and (d) fibre latency at 1550 nm. Fig. 4. Comparisons of BER and SNR performance versus ROP of 1550-nm Nyquist PAM4 transmission in SSMF, B2B and NANF links at (a)-(b): 80 Gb/s, (c)-(d): 100 Gb/s, and (e)-(f): 112 Gb/s. Fig. 5. ROP in different links and the measured loss of the SSMF-connectorized NANF over S+C+L-bands. Fig. 6. Comparisons of BER and SNR performance across the S+C+L-bands of Nyquist PAM4 transmission in SSMF, B2B and NANF links at (a)-(b): 80 Gb/s, (c)-(d): 100 Gb/s, and (e)-(f): 112 Gb/s. Fig. 7. BER and average SNR versus number of data subcarriers for uniformly-loaded DDO-OFDM transmission in ~5-km SSMF and NANF. Fig. 8. SNR profiles of uniformly-loaded DDO-OFDM after ~5-km transmission in (a) NANF and (b) SSMF. Fig. 9. BER and average SNR versus ROP for 65.625-Gb/s uniformly-loaded 4QAM-DDO-OFDM transmission in ~5-km SSMF and NANF. Fig. 10. BER versus number of data subcarriers for adaptively-loaded DDO-OFDM transmission in ~5-km SSMF and NANF. Fig. 11. SNR profiles of adaptively-loaded DDO-OFDM after ~5-km transmission in (a) NANF and (b) SSMF. Fig. 12. Comparison of the maximum achievable capacity versus ROP in SSMF and NANF, and the corresponding BER.

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Published date: 14 July 2021

Identifiers

Local EPrints ID: 450180
URI: http://eprints.soton.ac.uk/id/eprint/450180
PURE UUID: 5f3e2426-5f47-4893-82df-7060492905fc
ORCID for Thomas Bradley: ORCID iD orcid.org/0000-0001-6568-5811
ORCID for Natsupa Taengnoi: ORCID iD orcid.org/0000-0002-5319-0851
ORCID for Kyle Bottrill: ORCID iD orcid.org/0000-0002-9872-110X
ORCID for Gregory Jasion: ORCID iD orcid.org/0000-0001-5030-6479
ORCID for Francesco Poletti: ORCID iD orcid.org/0000-0002-1000-3083
ORCID for Periklis Petropoulos: ORCID iD orcid.org/0000-0002-1576-8034
ORCID for David Richardson: ORCID iD orcid.org/0000-0002-7751-1058

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Date deposited: 14 Jul 2021 17:06
Last modified: 15 Jul 2021 01:55

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