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Optimizing graded-index few-mode fiber for space division multiplexing
We investigate the graded-index few-mode fiber (GI-FMF) to realize a 4-LP-mode (i.e. LP , LP , LP , and LP ) fiber for mode-division-multiplexed transmission. This study optimizes the GI-FMF for both, first, for large effective indices differences (Δn ), and second, for low differential mode delay (...
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| Published in: | Optics express 2023-06, Vol.31 (13), p.21784-21795 |
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| Main Authors: | , , , |
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| Language: | English |
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| container_start_page | 21784 |
| container_title | Optics express |
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| creator | Ojha, Komal Mishra, Darpan Appaiah, Kumar Jain, Deepak |
| description | We investigate the graded-index few-mode fiber (GI-FMF) to realize a 4-LP-mode (i.e. LP
, LP
, LP
, and LP
) fiber for mode-division-multiplexed transmission. This study optimizes the GI-FMF for both, first, for large effective indices differences (Δn
), and second, for low differential mode delay (DMD) between any two LP modes, for different optimized parameters. Thus, it shows that GI-FMF is suitable for both weakly-coupled few-mode fiber (WC-FMF) as well as strongly-coupled few-mode fiber (SC-FMF) via adjusting the profile parameter (α), refractive index difference between core and cladding (n
- n
), and core radius (a). We report the optimized parameters for WC-GI-FMF with large effective indices difference (Δn
) of 0.6 × 10
and low |DMD| of 5.4 ns/km while the minimum effective mode area (Min.|A
|) is 80 µm
and bending loss (BL) of the highest order mode is 0.005 dB/turn (much lower than 10 dB/turn) at a 10 mm bend radius. Here, we could break down the degeneracy between LP
and LP
mode, which remains a challenging task in GI-FMF. To the best of our knowledge, this is the lowest DMD (5.4 ns/km) ever reported for such a weakly-coupled (Δn
= 0.6 × 10
) 4-LP-mode FMF. Similarly, we optimized the parameters for SC-GI-FMF with Δn
of 0.1 × 10
and the lowest DMD of 0.9 ns/km while Min.|A
| is ≫ 100 µm
and BL of higher order mode is 6 dB/turn (< 10 dB/turn) at 10 mm bend radius. Further, we investigate narrow air trench-assisted SC-GI-FMF to reduce the DMD and achieve the lowest DMD of 16 ps/km for a 4-LP-mode GI-FMF with a minimum Δn
of 0.7 × 10
. |
| doi_str_mv | 10.1364/OE.491742 |
| format | article |
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, LP
, LP
, and LP
) fiber for mode-division-multiplexed transmission. This study optimizes the GI-FMF for both, first, for large effective indices differences (Δn
), and second, for low differential mode delay (DMD) between any two LP modes, for different optimized parameters. Thus, it shows that GI-FMF is suitable for both weakly-coupled few-mode fiber (WC-FMF) as well as strongly-coupled few-mode fiber (SC-FMF) via adjusting the profile parameter (α), refractive index difference between core and cladding (n
- n
), and core radius (a). We report the optimized parameters for WC-GI-FMF with large effective indices difference (Δn
) of 0.6 × 10
and low |DMD| of 5.4 ns/km while the minimum effective mode area (Min.|A
|) is 80 µm
and bending loss (BL) of the highest order mode is 0.005 dB/turn (much lower than 10 dB/turn) at a 10 mm bend radius. Here, we could break down the degeneracy between LP
and LP
mode, which remains a challenging task in GI-FMF. To the best of our knowledge, this is the lowest DMD (5.4 ns/km) ever reported for such a weakly-coupled (Δn
= 0.6 × 10
) 4-LP-mode FMF. Similarly, we optimized the parameters for SC-GI-FMF with Δn
of 0.1 × 10
and the lowest DMD of 0.9 ns/km while Min.|A
| is ≫ 100 µm
and BL of higher order mode is 6 dB/turn (< 10 dB/turn) at 10 mm bend radius. Further, we investigate narrow air trench-assisted SC-GI-FMF to reduce the DMD and achieve the lowest DMD of 16 ps/km for a 4-LP-mode GI-FMF with a minimum Δn
of 0.7 × 10
.</description><identifier>ISSN: 1094-4087</identifier><identifier>EISSN: 1094-4087</identifier><identifier>DOI: 10.1364/OE.491742</identifier><identifier>PMID: 37381267</identifier><language>eng</language><publisher>United States</publisher><ispartof>Optics express, 2023-06, Vol.31 (13), p.21784-21795</ispartof><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c320t-6d88b59822685b4ed860b9c4d998528bc6d38e68ec9531e7b819d5267e5ca8973</citedby><cites>FETCH-LOGICAL-c320t-6d88b59822685b4ed860b9c4d998528bc6d38e68ec9531e7b819d5267e5ca8973</cites><orcidid>0000-0001-9248-2008</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/37381267$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Ojha, Komal</creatorcontrib><creatorcontrib>Mishra, Darpan</creatorcontrib><creatorcontrib>Appaiah, Kumar</creatorcontrib><creatorcontrib>Jain, Deepak</creatorcontrib><title>Optimizing graded-index few-mode fiber for space division multiplexing</title><title>Optics express</title><addtitle>Opt Express</addtitle><description>We investigate the graded-index few-mode fiber (GI-FMF) to realize a 4-LP-mode (i.e. LP
, LP
, LP
, and LP
) fiber for mode-division-multiplexed transmission. This study optimizes the GI-FMF for both, first, for large effective indices differences (Δn
), and second, for low differential mode delay (DMD) between any two LP modes, for different optimized parameters. Thus, it shows that GI-FMF is suitable for both weakly-coupled few-mode fiber (WC-FMF) as well as strongly-coupled few-mode fiber (SC-FMF) via adjusting the profile parameter (α), refractive index difference between core and cladding (n
- n
), and core radius (a). We report the optimized parameters for WC-GI-FMF with large effective indices difference (Δn
) of 0.6 × 10
and low |DMD| of 5.4 ns/km while the minimum effective mode area (Min.|A
|) is 80 µm
and bending loss (BL) of the highest order mode is 0.005 dB/turn (much lower than 10 dB/turn) at a 10 mm bend radius. Here, we could break down the degeneracy between LP
and LP
mode, which remains a challenging task in GI-FMF. To the best of our knowledge, this is the lowest DMD (5.4 ns/km) ever reported for such a weakly-coupled (Δn
= 0.6 × 10
) 4-LP-mode FMF. Similarly, we optimized the parameters for SC-GI-FMF with Δn
of 0.1 × 10
and the lowest DMD of 0.9 ns/km while Min.|A
| is ≫ 100 µm
and BL of higher order mode is 6 dB/turn (< 10 dB/turn) at 10 mm bend radius. Further, we investigate narrow air trench-assisted SC-GI-FMF to reduce the DMD and achieve the lowest DMD of 16 ps/km for a 4-LP-mode GI-FMF with a minimum Δn
of 0.7 × 10
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, LP
, LP
, and LP
) fiber for mode-division-multiplexed transmission. This study optimizes the GI-FMF for both, first, for large effective indices differences (Δn
), and second, for low differential mode delay (DMD) between any two LP modes, for different optimized parameters. Thus, it shows that GI-FMF is suitable for both weakly-coupled few-mode fiber (WC-FMF) as well as strongly-coupled few-mode fiber (SC-FMF) via adjusting the profile parameter (α), refractive index difference between core and cladding (n
- n
), and core radius (a). We report the optimized parameters for WC-GI-FMF with large effective indices difference (Δn
) of 0.6 × 10
and low |DMD| of 5.4 ns/km while the minimum effective mode area (Min.|A
|) is 80 µm
and bending loss (BL) of the highest order mode is 0.005 dB/turn (much lower than 10 dB/turn) at a 10 mm bend radius. Here, we could break down the degeneracy between LP
and LP
mode, which remains a challenging task in GI-FMF. To the best of our knowledge, this is the lowest DMD (5.4 ns/km) ever reported for such a weakly-coupled (Δn
= 0.6 × 10
) 4-LP-mode FMF. Similarly, we optimized the parameters for SC-GI-FMF with Δn
of 0.1 × 10
and the lowest DMD of 0.9 ns/km while Min.|A
| is ≫ 100 µm
and BL of higher order mode is 6 dB/turn (< 10 dB/turn) at 10 mm bend radius. Further, we investigate narrow air trench-assisted SC-GI-FMF to reduce the DMD and achieve the lowest DMD of 16 ps/km for a 4-LP-mode GI-FMF with a minimum Δn
of 0.7 × 10
.</abstract><cop>United States</cop><pmid>37381267</pmid><doi>10.1364/OE.491742</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0001-9248-2008</orcidid><oa>free_for_read</oa></addata></record> |
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| title | Optimizing graded-index few-mode fiber for space division multiplexing |
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