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High-speed 4 × 4 silicon photonic plasma dispersive switch, operating at the 2 µm waveband

High-speed 4 × 4 silicon photonic plasma dispersive switch, operating at the 2 µm waveband
High-speed 4 × 4 silicon photonic plasma dispersive switch, operating at the 2 µm waveband
The escalating need for expansive data bandwidth, and the resulting capacity constraints of the single mode fiber (SMF) have positioned the 2-μm waveband as a prospective window for emerging applications in optical communication. This has initiated an ecosystem of silicon photonic components in the region driven by CMOS compatibility, low cost, high efficiency and potential for large-scale integration. In this study, we demonstrate a plasma dispersive, 4 × 4 electro-optic switch operating at the 2-μm waveband with the shortest switching times. The demonstrated switch operates across a 45-nm bandwidth, with 10-90% rise and 90-10% fall time of 1.78 ns and 3.02 ns respectively. In a 4 × 4 implementation, crosstalk below -15 dB and power consumption below 19.15 mW across all 16 ports are indicated. The result brings high-speed optical switching to the portfolio of devices at the promising waveband.
1094-4087
Wang, Jiawei
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Sia, Jia Xu Brian
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Li, Xiang
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Guo, Xin
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Wang, Wanjun
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Qiao, Zhongliang
b331e792-f9de-4c8c-9f45-26023b736ab6
Littlejohns, Callum G.
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Liu, Chongyang
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Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139
Rusli, Rusli
3e8a94c5-8b4f-4297-80ac-92b92f145a36
Wang, Hong
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Wang, Jiawei
53d8d8bd-3c17-406e-9acf-961cc86b9a00
Sia, Jia Xu Brian
996b6cec-fd29-4301-9eae-b8b21dbe1405
Li, Xiang
df4a6c0e-3b99-4c6a-9be4-ab53d0541c11
Guo, Xin
bae204cd-7a70-4cf9-b81e-46f944dcd8aa
Wang, Wanjun
55ec185d-4220-4213-99ee-0819d50233f6
Qiao, Zhongliang
b331e792-f9de-4c8c-9f45-26023b736ab6
Littlejohns, Callum G.
d2837f04-0a83-4bf9-acb2-618aa42a0cad
Liu, Chongyang
28ec0e52-d3f6-4bc4-bce1-29d6842267df
Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139
Rusli, Rusli
3e8a94c5-8b4f-4297-80ac-92b92f145a36
Wang, Hong
dfd0ec4f-682a-4596-a0d1-171313cc5733

Wang, Jiawei, Sia, Jia Xu Brian, Li, Xiang, Guo, Xin, Wang, Wanjun, Qiao, Zhongliang, Littlejohns, Callum G., Liu, Chongyang, Reed, Graham T., Rusli, Rusli and Wang, Hong (2023) High-speed 4 × 4 silicon photonic plasma dispersive switch, operating at the 2 µm waveband. Optics Express. (In Press)

Record type: Article

Abstract

The escalating need for expansive data bandwidth, and the resulting capacity constraints of the single mode fiber (SMF) have positioned the 2-μm waveband as a prospective window for emerging applications in optical communication. This has initiated an ecosystem of silicon photonic components in the region driven by CMOS compatibility, low cost, high efficiency and potential for large-scale integration. In this study, we demonstrate a plasma dispersive, 4 × 4 electro-optic switch operating at the 2-μm waveband with the shortest switching times. The demonstrated switch operates across a 45-nm bandwidth, with 10-90% rise and 90-10% fall time of 1.78 ns and 3.02 ns respectively. In a 4 × 4 implementation, crosstalk below -15 dB and power consumption below 19.15 mW across all 16 ports are indicated. The result brings high-speed optical switching to the portfolio of devices at the promising waveband.

Text
2307.02861 - Accepted Manuscript
Available under License University of Southampton Accepted Manuscript Licence.
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More information

Accepted/In Press date: 8 September 2023
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 485789
URI: http://eprints.soton.ac.uk/id/eprint/485789
ISSN: 1094-4087
PURE UUID: 6735aa60-5aca-43b1-81f7-8e671f43b885

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Date deposited: 19 Dec 2023 17:39
Last modified: 17 Mar 2024 06:30

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Contributors

Author: Jiawei Wang
Author: Jia Xu Brian Sia
Author: Xiang Li
Author: Xin Guo
Author: Wanjun Wang
Author: Zhongliang Qiao
Author: Callum G. Littlejohns
Author: Chongyang Liu
Author: Graham T. Reed
Author: Rusli Rusli
Author: Hong Wang

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