- 教师名称:杨志群
- 教师拼音名称:Yang Zhiqun
- 出生日期:1990-12-21
- 性别:男
- 职务:光电信息工程系副主任
- 学科:光通信
- 职称:副教授
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Y. Wang, X. Liu, Q. Huang, D. Zhang, X. Wang, Q. Guo, T. Gao, Z. Yang*, Y. Liu*, H. Hu, R. Zhou, W. Sun, M. Zuo, M. Yan, Z. Liu, X. Zhang, Z. Huang, D. Wang, X. Xiao, and L. Zhang*, “10-Mode PM-QPSK Transmission over 2320 Km Enabled by Optimized Mode Permutation Strategies,” Optical Fiber Communication Conference (OFC) 2024, (IEEE&OSA, March xx, 2024, Santiago, CA, USA), paper Th1H.7. (口头报告)
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T. Xu, Y. Wang, M. Liu, Y. Liu*, Z. Yang*, W. Li, W. Li, C. Du, Z. Huang, and L. Zhang*, “6-Mode SDM Transmission over 960 Km with a Reach Extension of 5 Times Enabled by a 6M-EDFA,” International Conference on Optical Communications and Networks (ICOCN) 2024, (IEEE, July xx, 2024, Harbin, China), pp. 1-3.(Post Deadline Paper)
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G. Peng, Y. Liu*, Z. Li, K. Zhu, Z. Yang*, J. Li, S. Zhang, Z. Huang, and L. Zhang*, “Coherent All-Optical Reservoir Computing for Nonlinear Equalization in Long-Haul Optical Fiber Communication Systems,” Optics & Laser Technology, vol. 174, article no. 110697, July 2024.
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L. Hou, L. Yang, Z. Yang*, Y. Liu*, Z. Huang, and L. Zhang*, “Compact and efficient photonic lanterns through multi-stage tapering,” Optics Letters, vol. 49, no. 17, pp. 4779-4782, Sep. 2024.
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T. Gao, X. Wang, Y. Wang, T. Xu, W. Yu, Y. Liu*, Z. Yang*, Z. Huang, Q. Guo, R. Zhou, S. Cao, X. Xiao, Q. Huang, W. Sun, M. Yan, Z. Liu, X. Zhang, and L. Zhang*, “Novel Mirror-Flipped Mode Permutation Technique for Long-Haul 6-Mode Transmission,” Optics Communications, vol. 570, article no. 130892, Nov. 2024.
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T. Xu, T. Gao, Y. Wang, W. Li, W. Li, C. Du, Z. Yang, Y. Liu, and L. Zhang, "High-gain integrated in-line few-mode amplifier enabling 3840-km long-haul transmission," Photonics Research, vol. 10, no. 12, pp. 2794-2801, Dec. 2022.
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Y. Liu, Z. Yang, X. Wang, Y Jung, and L. Zhang, "Gain Equalization for Few-Mode Erbium-Doped Fiber Amplifiers via Strong Mode Coupling," Applied Sciences, vol.12, no.2, article no. 767, Jan. 2022.
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Y. Wang, T. Gao, Y. Liu, T. Xu, W. Yu, Z. Yang, Q. Guo, R. Zhou, S. Cao, X. Xiao, and L. Zhang, “Novel Mirror-flipped Mode Permutation Technique for Long-haul Mode-division Multiplexing Transmissions,” Optical Fiber Communication Conference (OFC)2022, (IEEE&OSA, March 6-10, 2022, San Diego, CA, USA), paper M4B.5.
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L. Yang, Z. Yang, T. Xu, L. Hou, R. Zhou, L. Gan, S. Cao, X. Xiao, and L Zhang, “Low-loss Mode Field Adapter Using Reverse Tapering for Fundamental Mode Transmission over MMFs,” Optical Fiber Communication Conference (OFC)2022, (IEEE&OSA, March 6-10, 2022, San Diego, CA, USA), paper M4E.7.
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L. Hou, Z. Yang, L. Yang, Y. Liu, and L. Zhang, "Efficient and compact photonic lanterns through cascaded tapering," Next-Generation Optical Communication (SPIE)2022: Components, Sub-Systems, and Systems XI, (January 22-27, 2022, San Francisco, CA, USA), vol. 1, article no. 1202804.
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X. Wang, Z. Yang, H. Sun, L. Yang, H. Wang, Y. Liu, H. Yu, C. Peng, and L. Zhang, “Heterogeneously Integrated Multicore Fibers for Smart Oilfield Applications,” International Conference on Optical Instruments and Technology (OIT2022): Optical Systems, Optoelectronic Instruments, Novel Display, and Imaging Technology, (April 8-10, 2022, Virtual, Online, China), vol. 1, article no. 122770U.
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Z. Yang, W. Yu, G. Peng, Y. Liu, and L. Zhang, “Recent Progress on Novel DSP Techniques for Mode Division Multiplexing Systems: A Review,” Applied Sciences, vol. 11, no. 4, article no. 1363, Feb. 2021.
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Y. Tang, Z. Yang, Y. Wang, Y. Liu, and L. Zhang, “Integrated device for cyclic mode permutation based on multi-plane light conversion,” in the 26th Optoelectronics and Communications Conference (OECC)2021, (July 3-7, 2021, Hong Kong), paper W4F.4.
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H. Sun, Z. Yang, X. Wang, Y. Liu, H. Yu, C. Peng, and L. Zhang, “Low-DMD Ladder Fiber with Dual-Step Trench-Assisted Structure,” in the 26th Optoelectronics and Communications Conference (OECC)2021, (July 3-7, 2021, Hong Kong), paper M4C.7.
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Y. Liu, Y. Jung, Z. Yang, L. Zhang, and D. J. Richardson, "Wideband and low-loss mode scrambler for few-mode fibers based on distributed multiple point-loads," IEEE Photonics Journal, vol. 13, no. 3, article no. 7100907, June 2021.
