Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network

Yu Fu Wu; Jinu Yu Sung; Chi-Wai Chow; Chien Hung Yeh

doi:10.1117/12.2060771

Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network

Yu Fu Wu, Jinu Yu Sung, Chi-Wai Chow, Chien Hung Yeh^*

^*Corresponding author for this work

Department of Photonics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper, we propose and demonstrate a self-seeding 1.2 GHz RSOA-based laser by employing 3.5 Gbit/s orthogonal-frequency-division-multiplexing quadrature-amplitude-modulation (OFDM-QAM) with bit-loading algorithm for upstream traffic in a colorless WDM-PON access. To achieve 3.5 Gbit/s traffic data rate and accomplish the forward error correction (FEC) threshold [bit error rate (BER) = 3.8×10 ^-3 ], a Faraday rotator mirror (FRM) is used to perform self-seeding operation in this experiment. Here, the power penalty is about 2.59 dB at the wavelength of 1550.0 nm wavelength in a 20 km single mode fiber (SMF) transmission. Moreover, the measured BER performances of proposed laser are also discussed and analyzed, while the fiber mirror (FM) is used to replace the FRM in this experiment.

Original language	English
Title of host publication	Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V
Editors	Bernard C. Kress, Syed H. Murshid, Abraham K. Ishihara, Edgar A. Mendoza, Nicolas Javahiraly, Alex A. Kazemi
Publisher	SPIE
ISBN (Electronic)	9781628412291
DOIs	https://doi.org/10.1117/12.2060771
State	Published - 1 Jan 2014
Event	Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V - San Diego, United States Duration: 18 Aug 2014 → 21 Aug 2014

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	9202
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V
Country	United States
City	San Diego
Period	18/08/14 → 21/08/14

Keywords

Faraday rotator mirror
OFDM-QAM
RSOA
Self-seeding

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Wu, Y. F., Sung, J. Y., Chow, C-W., & Yeh, C. H. (2014). Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network. In B. C. Kress, S. H. Murshid, A. K. Ishihara, E. A. Mendoza, N. Javahiraly, & A. A. Kazemi (Eds.), Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V [92020Q] (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 9202). SPIE. https://doi.org/10.1117/12.2060771

Wu, Yu Fu ; Sung, Jinu Yu ; Chow, Chi-Wai ; Yeh, Chien Hung. / Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network. Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V. editor / Bernard C. Kress ; Syed H. Murshid ; Abraham K. Ishihara ; Edgar A. Mendoza ; Nicolas Javahiraly ; Alex A. Kazemi. SPIE, 2014. (Proceedings of SPIE - The International Society for Optical Engineering).

@inproceedings{443de03e66e74837861d32d2f69d275f,

title = "Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network",

abstract = " In this paper, we propose and demonstrate a self-seeding 1.2 GHz RSOA-based laser by employing 3.5 Gbit/s orthogonal-frequency-division-multiplexing quadrature-amplitude-modulation (OFDM-QAM) with bit-loading algorithm for upstream traffic in a colorless WDM-PON access. To achieve 3.5 Gbit/s traffic data rate and accomplish the forward error correction (FEC) threshold [bit error rate (BER) = 3.8×10 -3 ], a Faraday rotator mirror (FRM) is used to perform self-seeding operation in this experiment. Here, the power penalty is about 2.59 dB at the wavelength of 1550.0 nm wavelength in a 20 km single mode fiber (SMF) transmission. Moreover, the measured BER performances of proposed laser are also discussed and analyzed, while the fiber mirror (FM) is used to replace the FRM in this experiment. ",

keywords = "Faraday rotator mirror, OFDM-QAM, RSOA, Self-seeding",

author = "Wu, {Yu Fu} and Sung, {Jinu Yu} and Chi-Wai Chow and Yeh, {Chien Hung}",

year = "2014",

month = jan,

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doi = "10.1117/12.2060771",

language = "English",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

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booktitle = "Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V",

address = "United States",

note = "null ; Conference date: 18-08-2014 Through 21-08-2014",

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Wu, YF, Sung, JY, Chow, C-W & Yeh, CH 2014, Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network. in BC Kress, SH Murshid, AK Ishihara, EA Mendoza, N Javahiraly & AA Kazemi (eds), Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V., 92020Q, Proceedings of SPIE - The International Society for Optical Engineering, vol. 9202, SPIE, Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V, San Diego, United States, 18/08/14. https://doi.org/10.1117/12.2060771

Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network. / Wu, Yu Fu; Sung, Jinu Yu; Chow, Chi-Wai; Yeh, Chien Hung.

Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V. ed. / Bernard C. Kress; Syed H. Murshid; Abraham K. Ishihara; Edgar A. Mendoza; Nicolas Javahiraly; Alex A. Kazemi. SPIE, 2014. 92020Q (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 9202).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Wu, Yu Fu

AU - Sung, Jinu Yu

AU - Chow, Chi-Wai

AU - Yeh, Chien Hung

PY - 2014/1/1

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N2 - In this paper, we propose and demonstrate a self-seeding 1.2 GHz RSOA-based laser by employing 3.5 Gbit/s orthogonal-frequency-division-multiplexing quadrature-amplitude-modulation (OFDM-QAM) with bit-loading algorithm for upstream traffic in a colorless WDM-PON access. To achieve 3.5 Gbit/s traffic data rate and accomplish the forward error correction (FEC) threshold [bit error rate (BER) = 3.8×10 -3 ], a Faraday rotator mirror (FRM) is used to perform self-seeding operation in this experiment. Here, the power penalty is about 2.59 dB at the wavelength of 1550.0 nm wavelength in a 20 km single mode fiber (SMF) transmission. Moreover, the measured BER performances of proposed laser are also discussed and analyzed, while the fiber mirror (FM) is used to replace the FRM in this experiment.

AB - In this paper, we propose and demonstrate a self-seeding 1.2 GHz RSOA-based laser by employing 3.5 Gbit/s orthogonal-frequency-division-multiplexing quadrature-amplitude-modulation (OFDM-QAM) with bit-loading algorithm for upstream traffic in a colorless WDM-PON access. To achieve 3.5 Gbit/s traffic data rate and accomplish the forward error correction (FEC) threshold [bit error rate (BER) = 3.8×10 -3 ], a Faraday rotator mirror (FRM) is used to perform self-seeding operation in this experiment. Here, the power penalty is about 2.59 dB at the wavelength of 1550.0 nm wavelength in a 20 km single mode fiber (SMF) transmission. Moreover, the measured BER performances of proposed laser are also discussed and analyzed, while the fiber mirror (FM) is used to replace the FRM in this experiment.

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KW - Self-seeding

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M3 - Conference contribution

AN - SCOPUS:84922928105

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V

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A2 - Murshid, Syed H.

A2 - Ishihara, Abraham K.

A2 - Mendoza, Edgar A.

A2 - Javahiraly, Nicolas

A2 - Kazemi, Alex A.

PB - SPIE

Y2 - 18 August 2014 through 21 August 2014

ER -

Wu YF, Sung JY, Chow C-W, Yeh CH. Utilizing self-seeding RSOA with faraday rotator mirror for colorless access network. In Kress BC, Murshid SH, Ishihara AK, Mendoza EA, Javahiraly N, Kazemi AA, editors, Photonics Applications for Aviation, Aerospace, Commercial, and Harsh Environments V. SPIE. 2014. 92020Q. (Proceedings of SPIE - The International Society for Optical Engineering). https://doi.org/10.1117/12.2060771