Universal silicon ring resonator for error free transmission links
Universal silicon ring resonator for error free transmission links
We report the design, fabrication, and characterization of a universal silicon p-n junction ring resonator for C band error-free communication links operated up to 50 Gb/s with co-designed optical modulation and detection performance. The universal p-n junction ring device shows co-designed detection responsivity up to 0.84 A/W, and in conjunction with a modulation efficiency of ~4 Vmm and >8 dB optical modulation extinction ratio (ER), enabling C band 50-Gb/s NRZ communication link with bit error rate (BER) ≤ 3×10-12. Individually, the speed of modulation and detection is measured up to 112 Gb/s and 80 Gb/s, respectively. The principle of co-designing PN junction ring modulator and detector performance required for error-free communication links can significantly ease the fabrication yield challenges of ring structures by reducing the number of types of devices. The principle can also be applied to O band wavelengths. To the best of our knowledge, for the first time, a device of this type has achieved both error-free modulation and detection operation up to 50 Gb/s in the C band individually or in conjugation as an error free communication link, which paves the way to realize a >1.6 Tb/s all-silicon WDM based error free optical transceiver link in future and is essential for future programmable photonics circuits.
Zhu, Junbo
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Zhang, Weiwei
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Li, Ke
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Pant, Bharat
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Ebert, Martin
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Yan, Xingzhao
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Banakar, Mehdi
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Tran, Dehn T.
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Littlejohns, Callum G.
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Gan, Fuwan
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Reed, Graham
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Thomson, David J.
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Zhu, Junbo
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Zhang, Weiwei
1a783f97-c5ac-49e9-a5a0-49b8b2efab36
Li, Ke
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Pant, Bharat
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Ebert, Martin
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Yan, Xingzhao
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Banakar, Mehdi
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Tran, Dehn T.
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Littlejohns, Callum G.
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Gan, Fuwan
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Reed, Graham
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Thomson, David J.
17c1626c-2422-42c6-98e0-586ae220bcda
Zhu, Junbo, Zhang, Weiwei, Li, Ke, Pant, Bharat, Ebert, Martin, Yan, Xingzhao, Banakar, Mehdi, Tran, Dehn T., Littlejohns, Callum G., Gan, Fuwan, Reed, Graham and Thomson, David J.
(2023)
Universal silicon ring resonator for error free transmission links.
Photonics Research, 12 (2).
(doi:10.1364/PRJ.509237).
(In Press)
Abstract
We report the design, fabrication, and characterization of a universal silicon p-n junction ring resonator for C band error-free communication links operated up to 50 Gb/s with co-designed optical modulation and detection performance. The universal p-n junction ring device shows co-designed detection responsivity up to 0.84 A/W, and in conjunction with a modulation efficiency of ~4 Vmm and >8 dB optical modulation extinction ratio (ER), enabling C band 50-Gb/s NRZ communication link with bit error rate (BER) ≤ 3×10-12. Individually, the speed of modulation and detection is measured up to 112 Gb/s and 80 Gb/s, respectively. The principle of co-designing PN junction ring modulator and detector performance required for error-free communication links can significantly ease the fabrication yield challenges of ring structures by reducing the number of types of devices. The principle can also be applied to O band wavelengths. To the best of our knowledge, for the first time, a device of this type has achieved both error-free modulation and detection operation up to 50 Gb/s in the C band individually or in conjugation as an error free communication link, which paves the way to realize a >1.6 Tb/s all-silicon WDM based error free optical transceiver link in future and is essential for future programmable photonics circuits.
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universal_ring_v9
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More information
Accepted/In Press date: 22 December 2023
Additional Information:
This work is supported by National key R & D Program of China (2022YFB2803100); Engineering and Physical Sciences Research Council (EP/N013247/1, EP/T019697/1, EP/T019697/1); National major scientific research instrument development project (22127901); Shanghai Sailing Program (22YF1456700); Junbo Zhu is funded by China Scholarship Council (CSC);
Identifiers
Local EPrints ID: 485978
URI: http://eprints.soton.ac.uk/id/eprint/485978
ISSN: 2327-9125
PURE UUID: 93d04547-e4f8-474f-a270-fb6e38cac706
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Date deposited: 04 Jan 2024 18:27
Last modified: 18 Mar 2024 05:02
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Author:
Junbo Zhu
Author:
Bharat Pant
Author:
Dehn T. Tran
Author:
Fuwan Gan
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