Chinese Optics Letters, Volume. 22, Issue 1, 010602(2024)
4.096 Tbit/s multidimensional multiplexing signals transmission over 1000 km few mode fiber
[8] R. Wang. Research of development status and the trend of optical fiber communication technology. 4th International Conference on Electrical & Electronics Engineering and Computer Science (ICEEECS)(2016).
[13] C. Shirpurkar, E. Lucas, K. Yang et al. 80-channel WDM-MDM communication link utilizing a photonic crystal resonator and inverse-designed mode-division multiplexers. Conference on Lasers and Electro-Optics, Technical Digest Series, STh4N.2(2022).
[15] G. Rademacher, R. S. Luís, B. J. Puttnam et al. 93.34 Tbit/s/mode (280 Tbit/s) transmission in a 3-mode graded-index few-mode fiber. Optical Fiber Communication Conference, W4C.3(2018).
[16] D. Soma, S. Beppu, S. Sumita et al. 402.7-Tb/s weakly-coupled 10-mode multiplexed transmission using rate-adaptive PS PDM-16QAM WDM signals. 45th European Conference on Optical Communication(2019).
[17] J. Zhang, Y. Wen, H. Tan et al. 80-Channel WDM-MDM transmission over 50-km ring-core fiber using a compact OAM DEMUX and modular 4 × 4 MIMO equalization. Optical Fiber Communication Conference (OFC), W3F.3(2019).
[19] J. Zhang, X. Wu, L. Lu et al. 1.12 Tbit/s fiber vector eigenmode multiplexing transmission over 5-km FMF with Kramers-Kronig receiver. Optical Fiber Communication Conference (OFC), W1D.5(2020).
[20] G. Rademacher, B. J. Puttnam, R. S. Luis et al. Ultra-wide band transmission in few-mode fibers. European Conference on Optical Communication (ECOC)(2021).
[21] L. Shen, D. Ge, S. Shen et al. 16-Tb/s real-time demonstration of 100-km MDM transmission using commercial 200G OTN system. Optical Fiber Communication Conference(2021).
[26] Y. Jianjun, X. Li, J. Zhang. Digital Signal Processing for High-speed Optical Communication(2017).
[27] J. Yu, N. Chi. Principles and Applications of Digital Signal Processing Algorithms in High-Speed Optical Fiber Communications (Volume Two): Multi-Carrier Modulation and Artificial Intelligence(2018).
[28] J. Yu, N. Chi. Digital Signal Processing in High-Speed Optical Fiber Communication Principle and Application(2020).
[31] T. Hayashi, T. Nakanishi. Multi-core optical fibers for the next-generation communications. SEI Tech. Rev., 86, 23(2018).
[32] T. Nakanishi, T. Hayashi, O. Shimakawa et al. Spatial spectral efficiency enhanced multi core fiber. Optical Fiber Communication Conference, Th3C.3(2015).
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[1] Jianxin Ren, Zeqian Guo, Bo Liu, Chen Wang, Bohan Sang, Kaihui Wang, Shuaidong Chen, Yaya Mao, Rahat Ullah, Xiumin Song, Yongyi Yu, Lilong Zhao, Yongfeng Wu, Tingting Sun.
[1] Feng Liu, Tianle Gu, Zicheng Huang.
[2] Feng Liu, Tianle Gu, Zicheng Huang.
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Yu Zhang, Chen Wang, Kaihui Wang, Junjie Ding, Bowen Zhu, Lei Shen, Lei Zhang, Ruichun Wang, Changkun Yan, Bo Liu, Jianjun Yu. 4.096 Tbit/s multidimensional multiplexing signals transmission over 1000 km few mode fiber[J]. Chinese Optics Letters, 2024, 22(1): 010602
Category: Fiber Optics and Optical Communications
Received: Mar. 14, 2023
Accepted: Jul. 27, 2023
Published Online: Jan. 2, 2024
The Author Email: Jianjun Yu (jianjun@fudan.edu.cn)