Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers

Huixing Zhang; Aijun Wen; Yongsheng Gao; Song Zhang; Shuiying Xiang; Lin Lin

doi:10.1117/12.2264227

Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers

Huixing Zhang, Aijun Wen, Yongsheng Gao, Song Zhang, Shuiying Xiang, Lin Lin

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

Abstract

Coherent optical RF receivers constructed in self-homodyne configurations have gained considerable attention due to its simplicity and cost-efficiency. Rigorous symmetry is required in such system to suppress the laser phase noise. A method for evaluation of the un-eliminated laser phase noise in self-homodyne coherent optical RF receivers has been presented in this paper. In our proposed scheme, the un-eliminated laser phase noise is acquired by simply inserting an FBG in the in-phase arm and is found to be dependent on the interferometer asymmetry, i.e., the path imbalance of the interferometer arms. With series of simulations, the variance of the un-eliminated laser phase noise obtained by our method becomes larger when the path imbalance is increasing. The simulation results show that, variance increases with the asymmetrical time delays of two interferometer arms. Therefore, this method is very helpful in obtaining further insight into the system symmetry and is also a good guidance for the adjustment of the interferometer architecture to achieve the optimized path equality.

Original language	English
Title of host publication	International Conference on Optoelectronics and Microelectronics Technology and Application
Editors	Guofan Jin, Yangyuan Wang
Publisher	SPIE
ISBN (Electronic)	9781510609891
DOIs	https://doi.org/10.1117/12.2264227
State	Published - 2017
Externally published	Yes
Event	International Conference on Optoelectronics and Microelectronics Technology and Application 2016, OMTA 2016 - Shanghai, China Duration: 10 Oct 2016 → 12 Oct 2016

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	10244
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	International Conference on Optoelectronics and Microelectronics Technology and Application 2016, OMTA 2016
Country/Territory	China
City	Shanghai
Period	10/10/16 → 12/10/16

Keywords

Digital signal processing
Laser phase noise
Radio-over-fiber (ROF)
Self-homodyne coherent detection

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10.1117/12.2264227

Cite this

Zhang, H., Wen, A., Gao, Y., Zhang, S., Xiang, S., & Lin, L. (2017). Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers. In G. Jin, & Y. Wang (Eds.), International Conference on Optoelectronics and Microelectronics Technology and Application Article 102441L (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10244). SPIE. https://doi.org/10.1117/12.2264227

Zhang, Huixing ; Wen, Aijun ; Gao, Yongsheng et al. / Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers. International Conference on Optoelectronics and Microelectronics Technology and Application. editor / Guofan Jin ; Yangyuan Wang. SPIE, 2017. (Proceedings of SPIE - The International Society for Optical Engineering).

@inproceedings{1dc1228cf21d479fadff11843b13119b,

title = "Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers",

abstract = "Coherent optical RF receivers constructed in self-homodyne configurations have gained considerable attention due to its simplicity and cost-efficiency. Rigorous symmetry is required in such system to suppress the laser phase noise. A method for evaluation of the un-eliminated laser phase noise in self-homodyne coherent optical RF receivers has been presented in this paper. In our proposed scheme, the un-eliminated laser phase noise is acquired by simply inserting an FBG in the in-phase arm and is found to be dependent on the interferometer asymmetry, i.e., the path imbalance of the interferometer arms. With series of simulations, the variance of the un-eliminated laser phase noise obtained by our method becomes larger when the path imbalance is increasing. The simulation results show that, variance increases with the asymmetrical time delays of two interferometer arms. Therefore, this method is very helpful in obtaining further insight into the system symmetry and is also a good guidance for the adjustment of the interferometer architecture to achieve the optimized path equality.",

keywords = "Digital signal processing, Laser phase noise, Radio-over-fiber (ROF), Self-homodyne coherent detection",

author = "Huixing Zhang and Aijun Wen and Yongsheng Gao and Song Zhang and Shuiying Xiang and Lin Lin",

note = "Publisher Copyright: {\textcopyright} 2017 SPIE.; International Conference on Optoelectronics and Microelectronics Technology and Application 2016, OMTA 2016 ; Conference date: 10-10-2016 Through 12-10-2016",

year = "2017",

doi = "10.1117/12.2264227",

language = "英语",

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

publisher = "SPIE",

editor = "Guofan Jin and Yangyuan Wang",

booktitle = "International Conference on Optoelectronics and Microelectronics Technology and Application",

}

Zhang, H, Wen, A, Gao, Y, Zhang, S, Xiang, S & Lin, L 2017, Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers. in G Jin & Y Wang (eds), International Conference on Optoelectronics and Microelectronics Technology and Application., 102441L, Proceedings of SPIE - The International Society for Optical Engineering, vol. 10244, SPIE, International Conference on Optoelectronics and Microelectronics Technology and Application 2016, OMTA 2016, Shanghai, China, 10/10/16. https://doi.org/10.1117/12.2264227

Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers. / Zhang, Huixing; Wen, Aijun; Gao, Yongsheng et al.
International Conference on Optoelectronics and Microelectronics Technology and Application. ed. / Guofan Jin; Yangyuan Wang. SPIE, 2017. 102441L (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10244).

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

TY - GEN

T1 - Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers

AU - Zhang, Huixing

AU - Wen, Aijun

AU - Gao, Yongsheng

AU - Zhang, Song

AU - Xiang, Shuiying

AU - Lin, Lin

PY - 2017

Y1 - 2017

N2 - Coherent optical RF receivers constructed in self-homodyne configurations have gained considerable attention due to its simplicity and cost-efficiency. Rigorous symmetry is required in such system to suppress the laser phase noise. A method for evaluation of the un-eliminated laser phase noise in self-homodyne coherent optical RF receivers has been presented in this paper. In our proposed scheme, the un-eliminated laser phase noise is acquired by simply inserting an FBG in the in-phase arm and is found to be dependent on the interferometer asymmetry, i.e., the path imbalance of the interferometer arms. With series of simulations, the variance of the un-eliminated laser phase noise obtained by our method becomes larger when the path imbalance is increasing. The simulation results show that, variance increases with the asymmetrical time delays of two interferometer arms. Therefore, this method is very helpful in obtaining further insight into the system symmetry and is also a good guidance for the adjustment of the interferometer architecture to achieve the optimized path equality.

AB - Coherent optical RF receivers constructed in self-homodyne configurations have gained considerable attention due to its simplicity and cost-efficiency. Rigorous symmetry is required in such system to suppress the laser phase noise. A method for evaluation of the un-eliminated laser phase noise in self-homodyne coherent optical RF receivers has been presented in this paper. In our proposed scheme, the un-eliminated laser phase noise is acquired by simply inserting an FBG in the in-phase arm and is found to be dependent on the interferometer asymmetry, i.e., the path imbalance of the interferometer arms. With series of simulations, the variance of the un-eliminated laser phase noise obtained by our method becomes larger when the path imbalance is increasing. The simulation results show that, variance increases with the asymmetrical time delays of two interferometer arms. Therefore, this method is very helpful in obtaining further insight into the system symmetry and is also a good guidance for the adjustment of the interferometer architecture to achieve the optimized path equality.

KW - Digital signal processing

KW - Laser phase noise

KW - Radio-over-fiber (ROF)

KW - Self-homodyne coherent detection

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DO - 10.1117/12.2264227

M3 - 会议稿件

AN - SCOPUS:85016978623

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

BT - International Conference on Optoelectronics and Microelectronics Technology and Application

A2 - Jin, Guofan

A2 - Wang, Yangyuan

PB - SPIE

T2 - International Conference on Optoelectronics and Microelectronics Technology and Application 2016, OMTA 2016

Y2 - 10 October 2016 through 12 October 2016

ER -

Zhang H, Wen A, Gao Y, Zhang S, Xiang S, Lin L. Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers. In Jin G, Wang Y, editors, International Conference on Optoelectronics and Microelectronics Technology and Application. SPIE. 2017. 102441L. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2264227

Evaluation of the un-eliminated laser phase noise induced by interferometer imbalance in self-homodyne coherent optical RF receivers

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