{"id":396,"date":"2021-01-26T16:17:06","date_gmt":"2021-01-26T08:17:06","guid":{"rendered":"http:\/\/111.186.57.67:5986\/wordpress\/?page_id=396"},"modified":"2026-01-16T14:12:07","modified_gmt":"2026-01-16T06:12:07","slug":"journal","status":"publish","type":"page","link":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/result\/journal","title":{"rendered":"\u671f\u520a\u8bba\u6587"},"content":{"rendered":"
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2026<\/h2>\n\n\n\n
  1. Jiazhen Ji, Jiageng Chen, Zhengyuan Xiao, Zhengwen Li, and Zuyuan He, \u201cStrain measurement range extension in distributed acoustic sensor based on multi-frequency phase unwrapping<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 44, No. 1, pp. 362-371, Jan. 2026<\/li><\/ol>\n\n\n\n\n\n\n\n

    2025<\/h2>\n\n\n\n
    1. Zhengyuan Xiao, Jiageng Chen, Jiazhen Ji, Zhengwen Li, and Zuyuan He, “Long-range distributed fiber-optic acoustic sensor with 100 kHz linewidth laser and frequency domain signal-and-kernel phase noise compensation<\/strong>,” Optics & \u00a0Laser Technology<\/em>, Vol. 192, 113485, Dec. 2025<\/li>
    2. Shaoxing Wang, Jiangbing Du, and Zuyuan He, \u201cThird-order hybrid Raman amplifier with 102-nm wideband high gain and ultralow noise figure for 18 \u00d7 112 Gbps WDM IM-DD transmission<\/strong>,\u201d Optics & Laser Technology<\/em>, Vol. 192, 113558, Dec. 2025<\/li>
    3. Chaozhu Liu, Xinyu Fan, and Zuyuan He, \u201cLow receiver-bandwidth quasi-distributed ultrasonic sensing enabled by crosstalk-suppressed optical coherence domain reflectometry<\/strong>,\u201d Journal of Lightwave Technology<\/em> , Vol. 43, No. 24, pp. 11104-11111, Dec. 2025<\/li>
    4. Xiaoke Chen, Lin Ma, Yijun Yu, Zuyuan He, Guiyuan Cao, Han Lin, and Baohua Jia, \u201cHigh NA broadband fiber facet flat orbital angular momentum graphene oxide metalens<\/strong>,\u201d ACS Photonics<\/em>, Vol. 12, No. 12, pp. 6819-6829, Dec. 2025<\/li>
    5. Pengjiu Zhao, Jiangbing Du, Shaoxing Wang, Leyan Fei, Ting Lei, Luping Du, Qunbi Zhuge, and Zuyuan He, \u201cReflective metasurface connector for high-density and wideband space-division multiplexing<\/strong>,\u201d Photonics Research<\/em>, Vol. 13, No. 12, pp. 3522-3530, Dec. 2025<\/li>
    6. Yang Zhang, Jiageng Chen, Hanzhao Li, Xuhui Yu, and Zuyuan He, \u201cHigh-speed long-range BOTDR by simplex coding and short-time fourier transform processing<\/strong>,\u201d IEEE Photonics Technology Letters<\/em>, Vol. 37, No. 22, pp. 1285-1288, Nov. 2025<\/li>
    7. LiHuang Li, Jiageng Chen, Yang Zhang, Mengying Ru, and Zuyuan He, \u201cEnhancing frequency accuracy of linear frequency-modulated BOTDR using Richardson-Lucy deconvolution<\/strong>,\u201d Optics Letters<\/em>, Vol. 50, No. 23, pp. 7384-7387, Nov. 2025<\/li>
    8. Ziwen Long, Xinyu Fan, and Zuyuan He, \u201cSimplified dual-comb hyperspectral digital holography system based on spatial heterodyne interferometry<\/strong>,\u201d Chinese Optics Letters<\/em>, Vol. 23, No. 11, 111102, Nov. 2025<\/li>
    9. Chaozhu Liu, Xinyu Fan, and Zuyuan He, \u201cFrequency-division-multiplexed OCDR for low receiver bandwidth quasi-distributed ultrasonic sensing with enhanced frequency response<\/strong>,\u201d Optics Letters<\/em>, Vol. 50, No. 21, pp. 6786-6789, Oct. 2025<\/li>
    10. Sizhe Zhang, Qingwen Liu, Shuting Liu, Binglin Chen, and Zuyuan He, “Modulation-free broadband fiber optic current sensor based on a linear resonant cavity<\/strong>,” Optics Letters<\/em>, Vol. 50, No. 19, pp. 6229-6232, Sep. 2025<\/li>
    11. Yangyang Wan, Ziwen Long, Xinyu Fan, and Zuyuan He, \u201cScan-less speckle encoded single-pixel imaging over giga-pixels per second assisted by dual optical frequency combs<\/strong>,\u201d Laser & Photonics Reviews<\/em>, e01235, Sep. 2025, Early view<\/li>
    12. Yidai Zhu, Xinyu Fan, Yangyang Wan, Sizhe Zhang, and Zuyuan He, “High-precision distributed magnetic field sensing using polarization-sensitive TGD-OFDR based on quaternion analysis<\/strong>,” Optics Letters<\/em>, Vol. 50, No. 18, pp. 5574-5577, Sep. 2025<\/li>
    13. Tianqi Cheng, Lin Ma, Mingjing Xu, and Zuyuan He, “Impact of inter-core doping concentration discrepancy on mode-dependent gain in coupled multi-core EDFA<\/strong>,” Journal of Lightwave Technology<\/em>, Vol. 43, No. 18, pp. 8857-8863, Sep. 2025<\/li>
    14. Zhengyuan Xiao, Jiageng Chen, Jiazhen Ji, Zhengwen Li, and Zuyuan He, “Simplified phase noise compensation architecture for distributed acoustic sensing enabled by receiver multiplexing<\/strong>,” Optics Express<\/em>, Vol. 33, No. 19, pp. 39977-39990, Sep. 2025<\/li>
    15. \u5434\u7d2b\u822a,\u5218\u5e86\u6587,\u4f55\u7956\u6e90.\u5149\u9891\u57df\u53cd\u5c04\u4eea\u9ad8\u7cbe\u5ea6\u5feb\u901f\u9891\u8c31\u89e3\u8c03\u7b97\u6cd5<\/strong>[J].\u6fc0\u5149\u4e0e\u5149\u7535\u5b50\u5b66\u8fdb\u5c55<\/em>, https:\/\/link.cnki.net\/urlid\/31.1690.TN.20250818.0958.002<\/li>
    16. Yidai Zhu, Xinyu Fan, Yangyang Wan, and Zuyuan He, \u201cHigh-accuracy distributed forward state-of-polarization reconstruction in optical fiber enabled by polarization-sensitive optical frequency domain reflectometry<\/strong>,\u201d Chinese Optics Letters<\/em>, Vol. 23, No. 9, 091201, Aug. 2025<\/li>
    17. Zhengchao Yuan, Xinyu Fan, Bingxin Xu, and Zuyuan He, \u201cHigh-resolution mid-infrared dual electro-optic comb interferometer based on spectral interleaving<\/strong>,\u201d Chinese Optics Letters<\/em>, Vol. 23, No. 9, 093001, Aug. 2025<\/li>
    18. Yang Zhang, Jiageng Chen, Hanzhao Li, Xuhui Yu, and Zuyuan He, “High-speed long-range BOTDR by simplex coding and short-time fourier transform processing<\/strong>,” IEEE Photonics Technology Letters<\/em>, Vol. 37, No. 22, pp. 1285-1288, Aug. 2025<\/li>
    19. Mengying Ru, Jiageng Chen, and Zuyuan He, “Long-range open-path BOTDA with far-end probe light source and injection locking,<\/strong>” Optics Letters<\/em>, Vol. 50, No. 17, pp. 5326-5329, Aug. 2025<\/li>
    20. Yanming Chang, Qingwen Liu, He Li, and Zuyuan He, “High-efficiency cross-correlation algorithm for optical frequency domain reflectometry distributed sensing<\/strong>,” Optics Letters<\/em>, Vol. 50, No. 16, pp. 5026-5029, Aug. 2025<\/li>
    21. Xuelin Zhang, Jiangbing Du, Jian Li, Yihang Li, Wenjia Zhang, Ke Xu, and Zuyuan He, “High-efficiency thermo-optic switch based on waveguide superlattices with artificial gauge field<\/strong>,” Optics Express<\/em>, Vol. 33, No. 16, pp. 33093-33100, Jul. 2025<\/li>
    22. Jiazhen Ji, Jiageng Chen, Zhengyuan Xiao, Zhengwen Li, Jingdong Zhang, Shengwen Feng, Feng Li, and Zuyuan He, “High-fidelity frequency division multiplexed distributed acoustic sensor based on desynchronized dual-frequency-pulse sequence<\/strong>,” Journal of Lightwave Technology<\/em>, Vol. 43, No. 18, pp. 8981-8990, Jul. 2025<\/li>
    23. Sizhe Zhang, Qingwen Liu, Shuting Liu, and Zuyuan He, \u201cClosed-loop resonant fiber optic current sensor based on broadband source and linear cavity<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 43, No. 17, pp. 8452-8459, Jun. 2025<\/li>
    24. Mengying Ru, Jiageng Chen, and Zuyuan He, “Dual-sideband-probe BOTDA with distortion-free pump pulse using the distributed Pound\u2013Drever\u2013Hall technique<\/strong>,” Optics Letters<\/em>, Vol. 50, No. 10, pp. 3325-3328, May.2025<\/li>
    25. Junyi Duan, Jiageng Chen, and Zuyuan He, “Inter-sequence-attention Transformer network for distributed fiber-optic sensing signal recognition,<\/strong>” Optical Fiber Technology<\/em>, Vol. 91, 104171, May. 2025<\/li>
    26. Xin Ye, Wenjia Zhang, and Zuyuan He, “Integrated spatial photonic XY Ising sampler based on a high-uniformity 1\u2009\u00d7\u20098 multi-mode interferometer,<\/strong>” Photonics Research<\/em>, Vol. 13, No. 5, pp. 1419-1427, May. 2025<\/li>
    27. Zhicheng Jin, Jiageng Chen, Hanzhao Li, Yanming Chang, Qingwen Liu, Xuhui Yu, and Zuyuan He, \u201cBrillouin optical time-domain reflectometer based on a silicon photonic integrated transceiver<\/strong>,\u201d Optics Letters<\/em>, Vol. 50, No. 9, pp. 3130-3133, May. 2025<\/li>
    28. \u4e8e\u524d\u7a0b,\u5218\u65ed,\u9a6c\u9e9f,\u5434\u91d1\u534e,\u4f55\u7956\u6e90.\u57fa\u4e8e\u805a\u5408\u7269\u6ce2\u5bfc\u7684\u7c97\u6ce2\u5206\u590d\u7528\u5668\u8bbe\u8ba1\u5236\u5907\u6280\u672f\u7814\u7a76[J]<\/strong>.\u5149\u5b50\u5b66\u62a5<\/em>,2025,54(5):0523001<\/li>
    29. Xiaoke Chen, Lin Ma, Zuyuan He, Guiyuan Cao, Han Lin, and Baohua Jia, “High diffraction effeciency fiber facet flat GO lens with a large numerical aperture<\/strong>,” ACS Photonics<\/em>, Vol. 12, No. 5, pp. 2458\u20132464, Apr. 2025<\/li>
    30. Xinyi Wang, Jiangbing Du, Wenjia Zhang, Weihong Shen, Ke Xu, and Zuyuan He, “High-density MDM silicon photonic transmitter assisted with MRMs and a two-dimensional grating coupler for single-fiber 4\u2009\u00d7\u200980-Gbps signaling<\/strong>,” Optics Letters<\/em>, Vol. 50, No. 8, pp. 2638-2641, Apr. 2025<\/li>
    31. Zhaonian Wang, Jiangbing Du, Ke Xu, and Zuyuan He, “Wideband non-degenerate two-photon absorption in low-loss multimode silicon waveguides for nonlinear optical tuning between C and 2-\u03bcm wavebands<\/strong>,” Optics Communications<\/em>, Vol. 578, 131506, Apr. 2025<\/li>
    32. Chang Ge, Xinyi Wang, Jiangbing Du, Xiaozhong Lin, Ting Lei, Luping Du, and Zuyuan He, “High-speed wafer-level TGV interposer for 2.5D CPO<\/strong>,” Optics Communications<\/em>, Vol. 579, 131517, Apr. 2025<\/li>
    33. Zhengchao Yuan, Xinyu Fan, Peiyuan Sun, Yangyang Wan, Bingxin Xu, and Zuyuan He, “Non-ambiguous microwave frequency measurement based on triple electro-optic frequency comb<\/strong>,” IEEE Photonics Technology Letters<\/em>, Vol. 37, No. 14, pp. 749-752, Apr. 2025<\/li>
    34. Shaoxing Wang, Jiangbing Du, Weiyu Zhang, Xiaojie Guo, Yan-ge Liu, Mingming Tan, and Zuyuan He, \u201cUltralow noise and SCL wideband few-mode amplification and transmission based on second-order few-mode distributed Raman and first-order single-mode lumped Raman<\/strong>,\u201d Optics & Laser Technology<\/em>, Vol. 182, Part A, 112015, Apr. 2025<\/li>
    35. Jiayuan Guo, Wenjia Zhang, Yue Jiang, and Zuyuan He, “Experimental realization of complex tensor convolution in photonic frequency synthetic dimensions<\/strong>,” Journal of Lightwave Technology<\/em>, Vol. 43, No. 11, pp. 5374-5380, Mar. 2025<\/li>
    36. Xin Ye, Wenjia Zhang, and Zuyuan He, \u201cSmoothed analysis based noise manipulation for spatial photonic Ising machines<\/strong>,\u201d Chinese Optics Letters<\/em>, Vol. 23, No. 3, 032501, Mar. 2025<\/li>
    37. Zongxiao Zhang, Qingwen Liu, Rongrong Niu, and Zuyuan He, “Three-component accelerometer based on distributed optical fiber sensing<\/strong>,” Sensors<\/em>, Vol. 25, No. 4, 997, Feb. 2025<\/li>
    38. Tianqi Cheng, Zechen Li, Linbin Bai, Junjie Xiong, Xiaoke Chen, Lin Ma, and Zuyuan He, \u201cConnection between single-mode fiber\u00a0 and hollow-core fiber with large fabrication\u00a0 tolerance using a micro-ball lens<\/strong>,\u201d Optics Letters<\/em>, Vol. 50, No. 3, pp. 1013-1016, Feb. 2025<\/li>
    39. Xuelin Zhang, Jiangbing Du, Ke Xu, and Zuyuan He, “Waveguide superlattices with artificial gauge field toward colorless and low-crosstalk ultrahigh-density photonic integration<\/strong>,” Advanced Photonics<\/em>, Vol. 7, No. 1, 016002, Jan. 2025<\/li>
    40. Jiehui Liu, Lin Ma, Chao Wang, Yi-Jun Zhu, and Zuyuan He, \u201cReal-time underwater visible light mobile communication with an extended distance using dynamic counting threshold<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 43, No. 3, pp. 1017-1023, Jan. 2025<\/li>
    41. Jiehui Liu, Lin Ma, and Zuyuan He, \u201cReal-time underwater visible light mobile communication with conditional feedback threshold under random receiver orientations<\/strong>,\u201d Optics Express<\/em>, Vol. 33, No. 3, pp. 4524-4533, Jan. 2025<\/li>
    42. \u674e\u6b63\u6587,\u9648\u5609\u5e9a,\u8096\u6b63\u539f,\u5409\u5609\u6862,\u4f55\u7956\u6e90.\u5206\u5e03\u5f0f\u5149\u7ea4\u58f0\u6ce2\u4f20\u611f\u5668\u7684\u76f8\u4f4d\u566a\u58f0\u8865\u507f\u65b9\u6cd5\u4e0e\u91cf\u5316\u566a\u58f0\u5f71\u54cd\u5206\u6790[J]<\/strong>.\u5149\u5b66\u5b66\u62a5<\/em>,2025,45(9):0928004<\/li>
    43. \u6f58\u4ea6\u6668,\u8096\u6b63\u539f,\u9648\u5609\u5e9a,\u4f55\u7956\u6e90.\u57fa\u4e8e\u6700\u5c0f\u9891\u79fb\u952e\u63a7\u8c03\u5236\u7684\u6d4b\u98ce\u6fc0\u5149\u96f7\u8fbe[J]<\/strong>.\u5149\u5b66\u5b66\u62a5<\/em>,2025,45(12):1228007<\/li><\/ol>\n\n\n\n\n\n\n\n

      2024<\/h2>\n\n\n\n
      1. Zhaonian Wang, Jiangbing Du, Yixuan Huang, Xi Wang, Ke Xu, and Zuyuan He, \u201cArtificial-gauge-field-based inverse design for wideband-flat power splitter and microring resonator<\/strong>,\u201d Advanced Photonics Nexus<\/em>, Vol. 4, No. 1, 016001, Dec. 2024<\/li>
      2. Xu Liu, Lin Ma, Yijun Yu, Qiancheng Yu, Jinhua Wu, and Zuyuan He, \u201cHybrid polymer waveguide with large refractive index contrast for high-density optical interconnects<\/strong>,\u201d IEEE Photonics Technology Letters<\/em>, Vol. 37, No. 3, pp. 125-128, Dec. 2024<\/li>
      3. Qianyu Zhou, Yangyang Wan, Xinyu Fan, and Zuyuan He, \u201cAll-fiber high-resolution computational  spectropolarimeter based on speckle pattern<\/strong>,\u201d Chinese Optics Letters<\/em>, Vol. 22, No. 12, 123001, Dec. 2024<\/li>
      4. Xu Liu, Lin Ma, Ying Shi, Qiancheng Yu, Motoya Kaneta, Xu Sun, and Zuyuan He, \u201cMeter-scale long connectorized paper-like polymer waveguide film for 100 Gbps board-level optical interconnects application<\/strong>,\u201d Polymers<\/em>, Vol. 16, No. 23, 3350, Nov. 2024<\/li>
      5. Zhengchao Yuan, Xinyu Fan, Bingxin Xu, Yidai Zhu, and Zuyuan He, \u201cA digitally generated high-resolution mid-infrared dual  comb spectroscopy system based on electro-optic  modulation<\/strong>,\u201d Optics Letters<\/em>, Vol. 49, No. 20, pp. 5711-5714, Oct. 2024<\/li>
      6. Mingjing Xu, Lin Ma, Fengrui Yu, Yunhe Zhao, and Zuyuan He, \u201cFemtosecond laser direct inscription of long period gratings in multicore fiber<\/strong>,\u201d Optics Letters<\/em>, Vol. 49, No. 20, pp. 5953-5956, Oct. 2024<\/li>
      7. Rongrong Niu , Qingwen Liu , Yuanpeng Deng , Yanming Chang , and Zuyuan He, \u201cQuasi-distributed fiber-optic sensor with large measurement range for both static and dynamic signals<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 43, No. 3, pp. 1437-1444, Oct. 2024<\/li>
      8. Mingjing Xu, Lin Ma, Junjie Xiong, Tianqi Cheng, Chen Yang, and Zuyuan He, \u201cCompact torsion sensor with high sensitivity using angle-offset long period grating inscribed in multicore fiber<\/strong>,\u201d IEEE Sensors Journal<\/em>, Vol. 24, No. 20, pp. 32105-32111, Oct. 2024<\/li>
      9. Sizhe Zhang, Qingwen Liu, Yanming Chang, and Zuyuan He, \u201cResonant fiber optic current sensor based on broadband light source<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 42, No. 18, pp. 6592-6598, Sep. 2024<\/li>
      10. \u738b\u6db5,\u5f20\u6587\u7532,\u59dc\u8d8a,\u4f55\u7956\u6e90.\u9ad8\u901f\u4fe1\u53f7\u8c03\u5236\u7535\u538b\u81ea\u9002\u5e94\u7684\u5fae\u73af\u8c03\u5236\u5668\u6ce2\u957f\u9501\u5b9a\u6280\u672f\u7814\u7a76<\/strong>[J].\u5149\u901a\u4fe1\u6280\u672f<\/em>,2024.\u7f51\u7edc\u9996\u53d1<\/li>
      11. Tianyan Guo, Jiangbing Du, Wenjia Zhang, and Zuyuan He, \u201cOptical matrix computing for optical forward error correction encoding<\/strong>,\u201d Optics Express<\/em>, Vol. 32, No. 17, pp. 29149-29158, Aug. 2024<\/li>
      12. Xu Liu, Lin Ma, Qiancheng Yu, Jinhua Wu, Marika Immonen, Chao Li, Zhixue He, and Zuyuan He, \u201cTerminated polymer waveguide with low coupling loss to single-mode fiber for 100 Gbps optical interconnects and beyond<\/strong>,\u201d Optics Express<\/em>, Vol. 32, No. 16, pp. 28841-28848, Jul. 2024<\/li>
      13. Shuting Liu, Qingwen Liu, and Zuyuan He, \u201cWhite-light-driven ultrahigh-resolution fiber ring resonator array based on frequency division multiplexing technology<\/strong>,\u201d IEEE Sensors Journal<\/em>, Vol. 24, No. 21, pp. 34424-34431, Jul. 2024<\/li>
      14. Xiaoke Chen, Lin Ma, Zuyuan He, Guiyuan Cao, Han Lin, Baohua Jia, \u201cUltra-high NA graphene oxide flat lens on fiber facet with near diffraction-limited focusing<\/strong>,\u201d Photonics Research<\/em>, Vol. 12, No. 7, pp. 1457-1463, Jul. 2024<\/li>
      15. Junyi Duan, Jiageng Chen, Hanzhao Li, and Zuyuan He, \u201cA transformer network for phase unwrapping in fiber-optic acoustic sensors<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 42, No. 19, pp. 7010-7020, Jun. 2024<\/li>
      16. Zhengyuan Xiao, Jiangeng Chen, Yuanpeng Deng, Qingwen Liu, Xinyu Fan, and Zuyuan He, \u201cSignal-and-kernel phase noise compensation method for distributed acoustic sensors<\/strong>,\u201d Journal of Lightwave Technology<\/em>, Vol. 42, No. 18, pp. 6466-6475, May. 2024<\/li>
      17. \u9648\u5bb6\u8c6a,\u5218\u5e86\u6587,\u5e38\u664f\u94ed,\u4f55\u7956\u6e90.\u57fa\u4e8e\u745e\u5229\u6563\u5c04\u5f3a\u5ea6\u8c31\u52a8\u6001\u6269\u5c55\u7684\u5927\u91cf\u7a0b\u5206\u5e03\u5f0f\u5149\u7ea4\u4f20\u611f\u7cfb\u7edf<\/strong>[J].\u5149\u5b66\u5b66\u62a5<\/em>,2024,44(11):1128001<\/li>
      18. Shaomeng Wang, Wenjia Zhang, Xin Ye, and Zuyuan He, \u201cGeneral spatial photonic Ising machine based on the interaction matrix eigendecomposition method<\/strong>,\u201d Applied Optics<\/em>, Vol. 63, No. 11, pp. 2973-2980, Apr. 2024<\/li>
      19. Songte Zhang, Wenjia Zhang, Jiangbing Du, and Zuyuan He, \u201cDistributed reservoir computing based nonlinear equalizer for VCSEL based optical interconnects<\/strong>,\u201d Optics Communications<\/em>, Vol. 563, 130574, Apr. 2024<\/li>
      20. Ziwen Long, Zhengchao Yuan, Xinyu Fan, and Zuyuan He, \u201cHyperspectral digital holography realized by using an electro-optical frequency comb via injection locking<\/strong>,\u201d Optics Letters<\/em>, Vol. 49, No. 6, pp. 1516-1519, Mar. 2024<\/li>
      21. Zhicheng Jin, Jiageng Chen, Yanming Chang, Qingwen Liu, and Zuyuan He, \u201cSilicon photonic integrated interrogator for fiber-optic distributed acoustic sensing<\/strong>,\u201d Photonics Research<\/em>, Vol. 12, No. 3, pp. 465-473, Feb. 2024<\/li>
      22. Bingxin Xu, Yangyang Wan, Xinyu Fan, and Zuyuan He, \u201cWhispering-gallery-mode barcode-based broadband sub-femtometer-resolution spectroscopy with an electro-optic frequency comb<\/strong>,\u201d Advanced Photonics<\/em>, Vol. 6, No. 1, 16006, Feb. 2024<\/li>
      23. Zhixiao Lv, Jiangbing Du, and Zuyuan He, \u201cOn-chip multichannel dispersion compensation and wavelength division MUX\/DeMUX using chirped-multimode-grating-assisted counter-directional coupler<\/strong>,\u201d Photonics<\/em>, Vol. 11, No. 2, 110, Jan. 2024<\/li>
      24. \u9ec4\u9e9f\u666f,\u5468\u9704,\u6a0a\u6615\u6631,\u738b\u5cf0,\u5f20\u65ed\u82f9,\u4f55\u7956\u6e90.\u591a\u673a\u7406\u878d\u5408\u5206\u5e03\u5f0f\u5149\u7ea4\u4f20\u611f\u6280\u672f\u7814\u7a76<\/strong>[J].\u5149\u5b66\u5b66\u62a5<\/em>,2024,44(1):0100009<\/li><\/ol>\n\n\n\n\n\n\n\n

        2023<\/h2>\n\n\n\n
        1. Linjing Huang, Zuyuan He, and Xinyu Fan, \u201cSimplified single-end Rayleigh and Brillouin hybrid distributed fiber-optic sensing system<\/a>,\u201d Science China Information Sciences<\/em>, Vol. 66, No. 2, 129404, Feb. 2023<\/li>
        2. Yue Jiang, Wenjia Zhang, Xuying Liu, Wenyu Zhu, Jiangbin Du, and Zuyuan He, \u201cPhysical layer-aware digital-analog co-design for photonic convolution neural network<\/a>,\u201d IEEE Journal of Selected Topics in Quantum Electronics<\/em>, Vol. 29, No. 6, pp. 1-9, Jun. 2023<\/li>
        3. \u5218\u6770\u5fbd,\u9a6c\u9e9f,\u6731\u68ee\u8363,\u4f55\u7956\u6e90.\u57fa\u4e8e\u589e\u76ca\u53cd\u9988\u63a7\u5236\u7684\u6c34\u4e0b\u79fb\u52a8\u5149\u901a\u4fe1\u6280\u672f\u7814\u7a76<\/a>[J].\u5149\u901a\u4fe1\u7814\u7a76<\/em>,2023(4):68-72<\/li>
        4. Yuanpeng Deng, Qingwen Liu, Shuting Liu, and Zuyuan He, “Multipath quasi-distributed acoustic sensing based on space division multiplexing and time-gated OFDR<\/a>,” IEEE Sensors Journal<\/em>, Vol. 23, No. 11, pp. 11615-11620, Jun. 2023<\/li>
        5. Yangyang Wan, Xinyu Fan, Bingxin Xu, and Zuyuan He, \u201cReconstructive spectrum analyzer with high-resolution and large-bandwidth using physical-model and data-driven model combined neural network<\/a>,\u201d Laser & Photonics Review<\/em>, Vol. 17, No. 7, 2201018, Jul. 2023<\/li>
        6. Linjing Huang, Xinyu Fan, Haijun He, Lianshan Yan, and Zuyuan He, “Single-end hybrid Rayleigh Brillouin and Raman distributed fibre-optic sensing system<\/a>,” Light: Advanced Manufacturing<\/em>, Vol. 4, No. 16, Jul. 2023<\/li>
        7. Jiacheng Liu, Jiangbing Du, Weihong Shen, Linjie Zhou, Wenjia Zhang, and Zuyuan He, “Silicon multi-mode micro-ring modulator for improved robustness to optical nonlinearity<\/a>,” Optics Letters<\/em>, Vol. 48, No. 14, pp. 3729-3732, Jul. 2023<\/li>
        8. Shuting Liu, Shuangxiang Zhao, Qingwen Liu, Shoulin Jiang, Wei Jin, and Zuyuan He, “Ultrahigh-resolution and ultra-simple fiber-optic sensor with resonant Sagnac interferometer<\/a>,” Optics Letters<\/em>, Vol. 48, No. 13, pp. 3543-3546, Jul. 2023<\/li>
        9. Xuying Liu, Wenjia Zhang, Yue Jiang, Han Wang, Dan Lu, Fan Yang, and Zuyuan He, “Highly reliable integrated W-band transmitter based on an on-chip dual-mode DFB laser and cascaded microring modulators<\/a>,” Photonics Research<\/em>, Vol. 11, No. 8, pp. 1431-1436, Aug. 2023<\/li>
        10. Ying Shi, Xu Liu, Lin Ma, Marika Immonen, Longxiu Zhu, and Zuyuan He, “Optical printed circuit boards with multimode polymer waveguides and pluggable connectors for high-speed optical interconnects<\/a>,” Optics Express<\/em>, Vol. 31, No. 17, pp. 27776-27786, Aug. 2023<\/li>
        11. Linjing Huang, Xinyu Fan, and Zuyuan He, “Scanning-free hybrid Rayleigh\u2013Brillouin distributed fiber-optic sensing system<\/a>,” Optics Letters<\/em>, Vol. 48, No. 17, pp. 4629-4632, Aug. 2023<\/li>
        12. Yidai Zhu, Xinyu Fan, Zhaopeng Zhang, Zhengchao Yuan, Bingxin Xu, and Zuyuan He, \u201cOptical frequency domain reflectometry with broadened frequency sweep range assisted by a dual electro-optic frequency comb<\/a>,\u201d Optics Letters<\/em>, Vol. 48, No. 19, pp. 4937-4940, Sep. 2023<\/li>
        13. Weiyu Zhang, Jiangbing Du, Mingming Tan, and Zuyuan He, \u201cUltralow noise C + L wideband WDM-IMDD transmission at 18 \u00d7 112 Gbps by using hybrid second-order distributed Raman and first-order lumped Raman amplification<\/a>,\u201d Optics Express<\/em>, Vol. 31, No. 22, pp. 35777-35785, Oct. 2023<\/li>
        14. Jiehui Liu, Lin Ma\uff0cand Zuyuan He, \u201cUnderwater visible light mobile communication using a gain feedback control method with dynamic threshold<\/a>,\u201d IEEE Photonics Journal<\/em>, Vol. 15, No. 6, 7305306, Nov. 2023<\/li>
        15. Xin Ye, Wenjia Zhang, Shaomeng Wang, Xiaoxuan Yang, and Zuyuan He, \u201c20736-node weighted max-cut problem solving by quadrature photonic spatial Ising machine<\/a>,\u201d Science China Information Sciences<\/em>, Vol. 66, No. 12, 229301, Nov. 2023<\/li><\/ol>\n\n\n\n\n\n\n\n

          2022<\/h2>\n\n\n\n
          1. Yuanyuan Liu, Qingwen Liu, Shuangxiang Zhao, Wenchen Sun, Bingxin Xu, Zuyuan He, and Junyong Zhang, “Single-exposure multi-wavelength diffraction imaging with blazed grating,” Optics Letters<\/em>, Vol. 47, No. 3, pp. 485-488, Jan. 2022<\/li>
          2. Jiacheng Liu, Gangqiang Zhou, Jiangbing Du, Weihong Shen, Linjie Zhou, and Zuyuan He, “Silicon mode-loop Mach-Zehnder modulator with L-shaped PN junction for 0.37 V\u00b7cm V\u03c0L high-efficiency modulation,” Photonics Research<\/em>, Vol. 10, No. 1, pp. 214-221, Jan. 2022<\/li>
          3. Shuangxiang Zhao, Qingwen Liu, Yuanyuan Liu, Huilian Ma, and Zuyuan He, “Navigation-grade resonant fiber-optic gyroscope using ultra-simple white-light multi-beam interferometry,” Photonics Research<\/em>, Vol. 10, No. 2, pp. 542-549, Feb. 2022<\/li>
          4. Shuangxiang Zhao, Qingwen Liu, Huilian Ma, and Zuyuan He, “White-light-driven resonant fiber-optic gyro based on round trip filtering scheme,” Optics Letters<\/em>, Vol. 47, No. 5, pp. 1137-1140, Mar. 2022<\/li>
          5. Wenchen Sun, Wenjia Zhang, Yuanyuan Liu, Qingwen Liu, and Zuyuan He, “Quadrature photonic spatial ising machine,” Optics Letters<\/em>, Vol. 47, No. 6, pp. 1498-1501, Mar. 2022<\/li>
          6. Weihong Shen, Gangqiang Zhou, Jiangbing Du, Linjie Zhou, Ke Xu, and Zuyuan He, “High-speed silicon microring modulator at the 2\u2009\u00b5m waveband with analysis and observation of optical bistability,” Photonics Research<\/em>, Vol. 10, No. 3, pp. A35-A42, Mar. 2022<\/li>
          7. \u9c8d\u745e, \u5218\u5e86\u6587, \u5218\u8fdc\u8fdc, \u4f55\u7956\u6e90, “\u57fa\u4e8e\u5377\u79ef\u795e\u7ecf\u7f51\u7edc\u7684\u53cc\u5c42\u751f\u7269\u7ec4\u7ec7\u5149\u5b66\u53c2\u6570\u53cd\u6f14\u7814\u7a76,” \u6fc0\u5149\u4e0e\u5149\u7535\u5b50\u5b66\u8fdb\u5c55<\/em>, 59(6): 0617018, 2022\u5e743\u6708<\/li>
          8. Shuting Liu, Qingwen Liu, Shuangxiang Zhao, and Zuyuan He, “Pico-strain resolution fiber-optic sensor with white-light interferometry,” Optics Letters<\/em>, Vol. 47, No. 9, pp. 2226-2229, Apr. 2022<\/li>
          9. Fan Yang, Wenjia Zhang, Yue Jiang, Jifang Tao, and Zuyuan He, “Highly sensitive integrated photonic sensor and interrogator using cascaded silicon microring resonators,” Journal of Lightwave Technology<\/em>, Vol. 40, No. 9, pp. 3055-3061, May. 2022<\/li>
          10. Jiacheng Liu, Jiangbing Du, Weihong Shen, Gangqiang Zhou, Linjie Zhou, Wenjia Zhang, Ke Xu, and Zuyuan He, “Ultrahigh extinction ratio silicon micro-ring modulator by MDM resonance for high speed PAM-4 and PAM-8 signaling,” Optics Express<\/em>, Vol. 30, No. 14, pp. 25672-25684, Jun. 2022<\/li>
          11. Yao Lu, Wenjia Zhang, Bangqi Fu and Zuyuan He, “Frequency-switched photonic spiking neurons,” Optics Express<\/em>, Vol. 30, No. 12, pp. 21599-21608, Jun. 2022<\/li>
          12. Xinyi Chen, Jiangbing Du, Baining Ye, Ke Xu, and Zuyuan He, “Active learning aided four mode fiber design with equalized zero dispersion for short reach MDM optical communications,” Journal of the Optical Society of America B<\/em>, Vol. 39, No. 7, pp.1958-1963, Jul. 2022<\/li>
          13. Ying Shi, Lin Ma, Motoya Kaneta, Bingxin Xu, Xinyu Fan, Yudi Zhuang, and Zuyuan He, “High-speed performance evaluation of ultra-flexible polymer waveguides supporting meter-scale optical interconnects,” Optics Express<\/em>, Vol. 30, No. 15, pp. 27236-27248, Jul. 2022<\/li>
          14. Junjie Xiong, Lin Ma, Ying Shi, Linbin Bai, and Zuyuan He, “Low Loss Ultra-Small Core Pitch All-Fiber Fan-In\/Fan-Out Device For Coupled-Core Multicore Fibers,” IEEE Photonics Journal<\/em>, Vol. 14, No. 4, 7146805, Aug. 2022<\/li>
          15. Yuanpeng Deng, Qingwen Liu, Shuangxiang Zhao, Yimin Luo, and Zuyuan He, \u201cQuasi-distributed fiber-optic acoustic sensor based on a low coherence light source,\u201d Optical Letters<\/em>, Vol. 47, No. 15, pp. 3780-3783, Aug. 2022<\/li>
          16. Xiao Xu, Xu Liu, Marika Immonen, Lin Ma, and Zuyuan He, \u201cInvestigation on mode dispersion and lamination stability of multimode polymer waveguides for an optical backplane,\u201d Optics Express<\/em>, Vol. 30, No. 22, pp. 40505-40514, Oct. 2022<\/li>
          17. Yao Lu, Wenjia Zhang, Bangqi Fu, Jiangbing Du, and Zuyuan He, \u201cSynaptic delay plasticity based on frequency-switched VCSELs for optical delay-weight spiking neural networks,\u201d Optics Letters<\/em>, Vol. 47, No. 21, pp. 5587-5590, Oct. 2022<\/li>
          18. Linjing Huang, Xinyu Fan, and Zuyuan He, \u201cHybrid distributed fiber-optic sensing system by using Rayleigh backscattering lightwave as probe of stimulated Brillouin scattering,\u201d Journal of Lightwave Technology<\/em>, Oct. 2022 (Early Access)<\/li><\/ol>\n\n\n\n\n\n\n\n

            2021<\/h2>\n\n\n\n
            1. Peiyuan Xu, Wenjia Zhang, and Zuyuan He, “Light field optimization for optical wireless power transfer<\/a>,” IEEE Photonics Journal<\/em>, Vol. 13, No. 1, pp. 1-9, Feb. 2021<\/li>
            2. Yuanyuan Liu, Qingwen Liu, You Li, Bingxin Xu, Junyong Zhang, and Zuyuan He, “High-resolution multi-wavelength lensless diffraction imaging with adaptive dispersion correction<\/a>,” Optics Express,<\/em> Vol. 29, No. 5, pp. 7197-7209, Feb. 2021<\/li>
            3. Yangyang Wan, Xinyu Fan, and Zuyuan He, “Review on speckle-based spectrum analyzer<\/a>,” Photonic Sensors<\/em>, Vol. 11, No. 2, pp. 187-202, Mar. 2021<\/li>
            4. Yangyang Wan, Xinyu Fan, Shuai Wang, Zhaopeng Zhang, Bingxin Xu, and Zuyuan He, “Rayleigh speckle-based wavemeter with high dynamic range and fast reference speckle establishment process assisted by optical frequency combs<\/a>,” Optics Letters<\/em>, Vol. 46, No. 6, pp. 1241-1244, Mar. 2021<\/li>
            5. Weihong Shen, Jiangbing Du, Ke Xu, and Zuyuan He, “On-chip selective dual-mode switch for 2-\u03bcm wavelength high-speed optical interconnection<\/a>,” IEEE Photonics Technology Letters<\/em>, Vol. 33, No. 10, pp. 483-486, Mar. 2021<\/li>
            6. Yao Lu, Wenjia Zhang, Bingxin Xu, Xinyu Fan, Yanting Sun, and Zuyuan He, “Directly modulated VCSELs with frequency comb injection for parallel communications<\/a>,” Journal of Lightwave Technology,<\/em> Vol. 39, No. 5, pp. 1348-1354, Mar. 2021<\/li>
            7. Yangyang Wan, Xinyu Fan, Shuai Wang, Zhaopeng Zhang, Shuangxiang Zhao, and Zuyuan He, “Wavemeter capable of simultaneously achieving ultra-high resolution and broad bandwidth by using rayleigh speckle from single mode fiber<\/a>,” Journal of Lightwave Technology<\/em>, Vol. 39, No. 7, pp. 2223-2229, Apr. 2021<\/li>
            8. He Li, Qingwen Liu, Dian Chen, and Zuyuan He, “Centimeter spatial resolution distributed temperature sensor based on polarization-sensitive optical frequency domain reflectometry<\/a>,” Journal of Lightwave Technology,<\/em> Vol. 39, No. 8, pp. 2594-2602, Apr. 2021<\/li>
            9. Yuanyuan Liu, Qingwen Liu, You Li, Junyong Zhang, and Zuyuan He, “High-resolution multi-planar coherent diffraction imaging with multimode fiber source<\/a>,” Optics and Lasers in Engineering,<\/em> Vol. 140, May. 2021<\/li>
            10. Wanjing Kuang, Lin Ma, Ying Shi, and Zuyuan He, “Ultra-compact low loss polymer wavelength (De)multiplexer with spot-size convertor using topology optimization<\/a>,” IEEE Photonics Journal<\/em>, Vol. 13, No. 3, pp. 1-9, Jun. 2021<\/li>
            11. Zuyuan He, Qingwen Liu, “Optical fiber distributed acoustic sensors: a review<\/a>,” Journal of Lightwave Technology<\/em>, Vol. 39, No. 12, pp. 3671 – 3686, Jun. 2021 (Review article)<\/strong><\/li>
            12. Yuanpeng Deng, Qingwen Liu, and Zuyuan He, “Distributed fiber-optic acoustic sensor for sparse-wideband vibration sensing with time delay sampling<\/a>,” IEEE Sensors Journal<\/em>, Vol. 21, No. 12, pp. 13290 – 13295, Jun. 2021<\/li>
            13. Yue Jiang, Wenjia Zhang, Fan Yang, and Zuyuan He, “Photonic Convolution Neural Network Based on Interleaved Time-Wavelength Modulation<\/a>,” Journal of Lightwave Technology<\/em>, Vol. 39, No. 14, pp. 4592 – 4600, Jul. 2021<\/li>
            14. Xinyu Fan, Bin Wang, Guangyao Yang, and Zuyuan He, “Slope-Assisted Brillouin-Based Distributed Fiber-Optic Sensing Techniques<\/a>,” Advanced Devices & Instrumentation<\/em>, Vol. 2021, 9756875, Jul. 2021 (Review article)<\/strong><\/li>
            15. Yuanyuan Liu, Qingwen Liu, Shuangxiang Zhao, Wenchen Sun, Bingxin Xu, and Zuyuan He, “Resolution Enhancement in Coherent Diffraction Imaging Using High Dynamic Range Image<\/a>,” Photonics<\/em>, Vol. 8, No. 9, 370, Sep. 2021<\/li>
            16. Mingyuan Li, Wenjia Zhang, Qiao Chen, and Zuyuan He, “High-throughput hardware deployment of pruned neural network based nonlinear equalization for 100-Gbps short-reach optical interconnect<\/a>,” Optics Letters<\/em>, Vol. 46, No. 19, pp. 4980 – 4983, Sep. 2021<\/li>
            17. Ying Shi, Bingxin Xu, Lin Ma, Junjie Xiong, Xinyu Fan, Yudi Zhuang, and Zuyuan He, “Direct bandwidth measurement of multimode waveguides based on an optical sampling technique<\/a>,” Optics Letters<\/em>, Vol. 46, No. 19, pp. 4908 – 4911, Sep. 2021<\/li>
            18. Yangyang Wan, Xinyu Fan, Bingxin Xu, and Zuyuan He, “Microwave frequency measurement with high accuracy and wide bandwidth based on whispering-gallery mode barcode<\/a>,” Optics Letters<\/em>, Vol. 46, No. 19, pp. 5008 – 5011, Sep. 2021<\/li>
            19. Baining Ye, Jiangbing Du, Zhaonian Wang, Weihong Shen, Xinyi Chen, Xiaojie Guo, and Zuyuan He, “Mode-division multiplexing phase-sensitive amplification for mode selective and mode equalized phase regenerative amplifications<\/a>,” Journal of the Optical Society of America B<\/em>, Vol. 38, No. 12, pp. F69 – F80, Sep. 2021<\/li>
            20. Zhaonian Wang, Jiangbing Du, Weihong Shen, Jiacheng Liu, and Zuyuan He, “Efficient design for integrated photonic waveguides with agile dispersion<\/a>,” Sensors<\/em>, Vol. 21, No. 19,  6651, Oct. 2021<\/li><\/ol>\n\n\n\n\n\n\n\n

              2020<\/h2>\n\n\n\n
              1. Yangyang Wan, Shuai Wang, Xinyu Fan, Zhaopeng Zhang, and Zuyuan He, “High-resolution wavemeter using Rayleigh speckle obtained by optical time domain reflectometry,” Optics Letters,<\/em> Vol. 45, No. 4, pp. 799-802, Feb. 2020<\/li>
              2. He Li, Qingwen Liu, Dian Chen, Yuanpeng Deng, Zuyuan He, “High-spatial-resolution fiber-optic distributed acoustic sensor based on phi-OFDR with enhanced crosstalk suppression,” Optics Letters,<\/em> Vol. 45, No. 2, pp. 563-566, Feb. 2020<\/li>
              3. Ling Ge, Wenjia Zhang, Chenyu Liang, and Zuyuan He, “Compressed Neural Network Equalization Based on Iterative Pruning Algorithm for 112-Gbps VCSEL-Enabled Optical Interconnects,” Journal of Lightwave Technology,<\/em> Vol. 38, No. 6, pp. 1323-1329, Mar. 2020<\/li>
              4. Shoulin Jiang, Chenyu Liang, Lin Ma, Junjie Xiong, Wenjia Zhang and Zuyuan He, “Ultra-low-loss broadband all-fiber mode selective couplers for MIMO-less MDM transmission,”  Journal of Lightwave Technology,<\/em> Vol. 38, No. 8, pp. 2376-2382, Apr. 2020<\/li>
              5. Yufeng Chen, Jiangbing Du, Yuting Huang, Ke Xu, and Zuyuan He, “Intelligent gain flattening in wavelength and space domain for FMF Raman amplification by machine learning based inverse design,” Optics Express,<\/em> Vol. 28, No. 8, pp. 11911-11920, Apr. 2020<\/li>
              6. Zhaopeng Zhang, Xinyu Fan, and Zuyuan He, “Long-range and wide-band vibration sensing by using phase-sensitive OFDR to interrogate a weak reflector array,” Optics Express<\/em>,<\/em> Vol. 28, No. 12, pp. 18387-18396, Jun. 2020<\/li>
              7. Mengshi Wu, Chi Li, Xinyu Fan, Changrui Liao, and Zuyuan He, “Large-scale multiplexed weak reflector array for fiber optic distributed acoustic sensor system,” Optics Letters<\/em>, Vol. 45, No. 13, pp. 3685-3688, Jul. 2020<\/li>
              8. Bingxin Xu, Xinyu Fan, Shuai Wang, Zuyuan He, “Generalized linear optical sampling technique realized by using non-pulse electro-optic frequency comb sampling source,” IEEE Access,<\/em> Vol. 8, pp. 114259-114265, Jul. 2020<\/li>
              9. Shuangxiang Zhao, Qingwen Liu, and Zuyuan He, “Multi-tone Pound-Drever-Hall technique for multiplexed high-resolution Fabry-Perot resonator sensors,” Journal of Lightwave Technology<\/em>,<\/em> Vol. 38, No. 22, pp. 6379-6384, Jul. 2020<\/li>
              10. Weihong Shen, Jiangbing Du, Lin Sun, Chang Wang, Yuzhu Zhu, Ke Xu, Baile Chen, and Zuyuan He, “Low-latency and high-speed hollow-core fiber optical interconnection at 2-micron waveband,” Journal of Lightwave Technology,<\/em> Vol. 38, No. 15, pp. 3874-3882, Aug. 2020<\/li>
              11. Zhaopeng Zhang, Xinyu Fan, Shuai Wang, Shuangxiang Zhao, Bin Wang, Yangyang Wan, Zuyuan He, “A novel wavemeter with 64 attometer spectral resolution based on Rayleigh speckle obtained from single-mode fiber,” OSA\/IEEE Journal of Lightwave Technology,<\/em> Vol. 38, No. 16, pp. 4548-4554, Aug. 2020<\/li>
              12. Wenjia Zhang, Ling Ge, Yanci Zhang, Chenyu Liang and Zuyuan He, “Compressed nonlinear equalizers for 112-Gbps optical interconnects: efficiency and stability,” Sensors,<\/em> Vol. 20, No. 17, pp. 4680, Aug. 2020<\/li>
              13. Chenyu Liang, Wenjia Zhang, Jiangbing Du, and Zuyuan He, “Modulation nonlinearity characterization for rate-equation-based diode lasers using cross-correlation-calculation-enabled behavioral modeling,” Optics Letters<\/em>,<\/em> Vol. 45, No. 15, pp. 4284-4287, Aug. 2020<\/li>
              14. Mengshi Wu, Xinyu Fan, Xinpu Zhang, Lianshan Yan, and Zuyuan He, “Frequency response enhancement of phase-sensitive OTDR for interrogating weak reflector array by using OFDM and Vernier effect,” OSA\/IEEE Journal of Lightwave Technology,<\/em> Vol. 38, No.17, pp. 4874-4882, Sept. 2020<\/li>
              15. Weihong Shen, Pingyang Zeng, Zelin Yang, Di Xia, Jiangbing Du, Bin Zhang, Ke Xu, Zuyuan He, Zhaohui Li, “Chalcogenide glass photonic integration for improved 2 \u03bcm optical interconnection,” Photonics Research,<\/em> Vol. 8, No. 9, pp. 1484-1490, Sep. 2020<\/li>
              16. Shuangxiang Zhao, Qingwen Liu, and Zuyuan He, “White-light-driven resonant fiber-optic strain sensor,” Optics Letters<\/em>,<\/em> Vol. 45, No. 18, pp. 5217-5220, Sep. 2020<\/li>
              17. Weihong Shen, Jiangbing Du, Junjie Xiong, Lin Ma, and Zuyuan He, “Silicon-integrated dual-mode fiber-to-chip edge coupler for 2×100 Gbps\/lambda MDM optical interconnection,” Optics Express<\/em>,<\/em> Vol. 28, No. 22, pp. 33254-33262, Oct. 2020<\/li><\/ol>\n\n\n\n\n\n\n\n

                2019<\/h2>\n\n\n\n
                1. Shuangxiang Zhao, Qingwen Liu, Jiageng Chen, and Zuyuan He, “p\u03b5-Resolution fiber grating sensor with adjustable measurement range and ultralow probe power,” IEEE Photonics Technology Letters,<\/em> Vol. 31, No. 1, pp. 19-22, Jan. 2019<\/li>
                2. Fan Yang, Wenjia Zhang, Shuangxiang Zhao, Qingwen Liu, Jifang Tao, and Zuyuan He, “Miniature interrogator for multiplexed FBG strain sensors based on a thermally tunable microring resonator array “, Optics Express<\/em>, Vol. 27, No. 5, pp. 6037-6046, Mar. 2019<\/li>
                3. Shuai Wang, Xinyu Fan*<\/sup>, Bingxin Xu, and Zuyuan He, \u201cFast MHz spectral-resolution dual-comb spectroscopy with electro-optic modulators,\u201d Optics Letters<\/em>, Vol. 44, No. 1, pp. 65-68, Jan. 2019<\/li>
                4. Bin Wang, Xinyu Fan*<\/sup>, Yuanxiu Fu, and Zuyuan He, \u201cDynamic strain measurements based on high-speed single-end-access Brillouin optical correlation domain analysis,\u201d OSA\/IEEE Journal of Lightwave Technology<\/em>, Vol. 37, No. 11, pp. 2557-2567, 2019<\/li>
                5. Zhaopeng Zhang, Xinyu Fan*<\/sup>, Mengshi Wu, and Zuyuan He, \u201cPhase-noise-compensated OFDR realized using\\nhardware-adaptive algorithm for real-time processing,\u201d OSA\/IEEE Journal of Lightwave Technolog<\/em>y, Vol. 37, No. 11, pp. 2634-2640, 2019<\/li>
                6. Chang Wang, Jiangbing Du, Guoyao Chen, Haoyang Wang, Lin Sun, Ke Xu, Bo Liu, and Zuyuan He, “QAM classification methods by SVM machine learning for improved optical interconnection,” Optics Communications<\/em>, Vol. 444, No. 1, pp. 1-8, March. 2019<\/li>
                7. Ling Ge, Wenjia Zhang, Chenyu Liang, and Zuyuan He, “Threshold based pruned retraining Volterra equalization for 100 Gbps\/lane and 100-m optical interconnects based on VCSEL and MMF,” Journal of Lightwave Technology, <\/em>Vol. 37, No. 13, pp. 3222 – 3228, Jul. 2019<\/li>
                8. Chenyu Liang, Wenjia Zhang, Qing Wang, Shun Yao, and Zuyuan He, “Application-oriented investigation of parasitic limitation on multilevel modulation of high-speed VCSELs,” IEEE Photonics Journal, <\/em>Vol. 11, No. 3, pp. 1-10, Apr. 2019<\/li>
                9. Jiageng Chen, Qingwen Liu, and Zuyuan He, “Feedforward laser linewidth narrowing scheme using acousto-optic frequency shifter and direct digital synthesizer,” IEEE\/OSA Journal of Lightwave Technology<\/em>, Vol. 37, No. 18, pp. 4657 – 4664, Sep. 2019<\/li>
                10. Bingxin Xu, Xinyu Fan, Shuai Wang, and Zuyuan He , “Broadband and high-resolution electro-optic dual-comb interferometer with frequency agility,” Optics Express,<\/em>Vol. 27, No. 6, pp. 9266-9275, Mar. 2019<\/li>
                11. Shuangxiang Zhao, Qingwen Liu, Jiageng Chen, and Zuyuan He, “Pico-strain resolution multiplexed fiber grating sensor array interrogated with mode-locked laser,” Journal of lightwave technology, <\/em>Vol. 37, No. 18, pp. 4838 – 4843, Sep. 2019<\/li>
                12. Shuangxiang Zhao, Qingwen Liu, Jiageng Chen, and Zuyuan He, “Realization of sub-nano-strain static resolution with injection-locking between two fiber laser sensors,” Journal of lightwave technology, <\/em>Vol. 37, No. 13, pp. 3166-3172, Jul. 2019<\/li>
                13. Bin Wang, Xinyu Fan, Yuanxiu Fu, Zuyuan He, “Enhancement of strain\/temperature measurement range and spatial resolution in Brillouin optical correlation domain analysis based on convexity extraction algorithm,” IEEE Access, <\/em>Vol. 7, pp. 32128-32136, Mar. 2019<\/li>
                14. Bin Wang, Xinyu Fan, Shuai Wang, Zuyuan He, “Phase-dispersion spectroscopy with high spectral resolution using a wideband ultra-linearly swept optical source,” Journal of Lightwave Technology, <\/em>Vol. 37, No. 13, pp. 3127-3137, Jul. 2019<\/li>
                15. Bin Wang, Xinyu Fan, Yuanxiu Fu, Zuyuan He, “Distributed dynamic strain measurement based on dual-slope-assisted Brillouin optical correlation domain analysis,” Journal of Lightwave Technology,<\/em> Vol. 37, No. 18, pp. 4573 – 4583, Sep. 2019<\/li>
                16. Bin Wang, Ping Lu, Stephen J. Mihailov, Xinyu Fan, Jianping Yao, “Real-time and high-precision interrogation of a linearly chirped fiber Bragg grating sensor array based on dispersive time delay and optical pulse compression,” Optics Letters, <\/em>Vol. 44, No. 13, pp. 3246-3249, Jun. 2019<\/li>
                17. Bin Wang, Weifeng Zhang, Xinyu Fan, Jianping Yao, “High-speed and high-precision torsion sensor based on polarization-induced microwave photonic phase shift measurement,” Optics Letters, <\/em>Vol. 44, No. 13, Jun. 2019<\/li>
                18. Yuyao Huang, Wenjia Zhang, Fan Yang, Jiangbing Du, and Zuyuan He, “Programmable matrix operation with reconfigurable time-wavelength plane manipulation and dispersed time delay,” Optics Express<\/em>, Vol. 27, No. 15, pp. 20456-20467, Jul. 2019<\/li>
                19. Yinping Liu, Lin Ma, Wufeng Xiao, Runhan Wang, Jie Luo, and Zuyuan He, “Wideband multimode fiber with an optimized core size and fluorine-doped cladding for high-speed SWDM and CWDM transmission,” Optics Express<\/em>, Vol. 27, No. 11, pp. 15433-15443, May. 2019<\/li>
                20. Lin Sun, Chang Wang, Jiangbing Du, Chenyu Liang, Wenjia Zhang, Ke Xu, Fan Zhang, and Zuyuan He, “Dyadic probabilistic shaping of PAM-4 and PAM-8 for cost-effective VCSEL-MMF optical interconnection,” IEEE PHOTONICS JOURNAL<\/em>, Vol. 11, No. 2, pp. 2634 – 2640, Apr. 2019<\/li>
                21. Lin Sun, Jiangbing Du, Ke Xu, Bo Liu, and Zuyuan He, “Enabling equalization and soft decision by k-means for VCSEL-based PAM-4 optical interconnection,” IEEE PHOTONICS JOURNAL<\/em>, Vol. 11, No. 4, pp. 4838 – 4843, Aug. 2019<\/li>
                22. Zhaopeng Zhang, Xinyu Fan, and Zuyuan He, “Long-range distributed static strain sensing with <100 nano-strain resolution realized using OFDR,” JOURNAL OF LIGHTWAVE TECHNOLOGY<\/em>, Vol. 37, No. 18, pp. 4590 – 4596, Sep. 2019<\/li>
                23. Dian Chen, Qingwen Liu, and Zuyuan He, “108-km Distributed acoustic sensor with 220-pepsilon\/radicHz strain resolution and 5-m spatial resolution,” Journal of Lightwave Technology<\/em>, Vol. 37, No. 18, pp. 4462 – 4468, Sep. 2019<\/li>
                24. Dian Chen, Qingwen Liu, Yifan Wang, He Li, and Zuyuan He, “Fiber-optic distributed acoustic sensor based on a chirped pulse and a non-matched filter,” Optics Express<\/em>, Vol. 27, No. 20, pp. 29415 – 29424, Sep. 2019<\/li>
                25. Yifan Wang, Qingwen Liu, Dian Chen, He Li, and Zuyuan He, “Distributed Fiber-Optic Dynamic-Strain Sensor With Sub-Meter Spatial Resolution and Single-Shot Measurement,” IEEE Photonics Journal,<\/em> Vol. 11, No.6, pp. 1-8, Nov. 2019<\/li>
                26. Chenyu Liang, Wenjia Zhang and Zuyuan He, “Electro-Optical Co-Design of Power-Efficient 100-Gbps\/\u03bb VCSEL Transmitter,” IEEE Photonics Journal,<\/em> Vol. 11, No. 6, pp. 1-11, Dec. 2019<\/li>
                27. Mengshi Wu, Xinyu Fan, Qingwen Liu, and Zuyuan He, “Quasi-distributed fiber-optic acoustic sensing system based on pulse compression technique and phase-noise compensation,” Optics Letters,<\/em> Vol. 44, No. 24, pp. 5969-5972, Dec. 2019<\/li><\/ol>\n\n\n\n\n\n\n\n

                  2018<\/h2>\n\n\n\n
                  1. Guangyao Yang, Xinyu Fan, Qingwen Liu and Zuyuan He, \u201cFrequency Response Enhancement of Direct-detection Phase-Sensitive OTDR by using Frequency Division Multiplexing,\u201d IEEE\/OSA Journal of Lightwave Technology, <\/em> Vol. 36, No. 4, pp. 1-7, Jan. 2018<\/li>
                  2. Yue You, Wenjia Zhang, Lin Sun, Jiangbing Du, Chenyu Liang, Fan Yang, Zuyuan He, \u201cTime Skewing and Amplitude Nonlinearity Mitigation by Feedback Equalization for 56 Gbps VCSEL-based PAM-4 Links,\u201dOptics Communications<\/em>, 410: 900-915, Jan. 2018<\/li>
                  3. Shuai Wang, Bingxin Xu, Xinyu Fan, and Zuyuan He, “Linear Optical Sampling Technique for Simultaneously Characterizing WDM Signal with Single Receiving Channel,” Optics Express<\/em>, Vol. 26, No. 2, pp. 2089-2098, Jan. 2018<\/li>
                  4. Guoyao Chen, Jiangbing Du, Lin Sun, Wenjia Zhang, Ke Xu, Xia Chen, G. T. Reed, and Zuyuan He, \u201cNonlinear Distortion Mitigation by Machine learning of SVM Classification for PAM-4 and PAM-8 Modulated Optical Interconnection,\u201d IEEE Journal of Lightwave Technology<\/em>, Vol. 36, No. 3, pp. 650-657, Feb. 2018<\/li>
                  5. Shoulin Jiang, Lin Ma and Zuyuan He, \u201cOrientation-Insensitive Azimuthally Asymmetric Mode Rotator Using Chirally-Coupled-Core Fiber,\u201d Optics Express<\/em>, Vol. 26, No. 5, pp. 5146-5153, Mar. 2018<\/li>
                  6. Yinping Liu, Lin Ma, Chen Yang, Weijun Tong and Zuyuan He, \u201cMultimode and Single-Mode Fiber Compatible Graded-Index Multicore Fiber for High Density Optical Interconnect Application,\u201d Optics Express,<\/em> Vol. 26, No. 9, pp. 11639-11648, Apr. 2018<\/li>
                  7. Xiao Xu, Lin Ma and Zuyuan He, \u201c3D Polymer Directional Coupler for On-Board Optical Interconnects at 1550 nm\u201d, Optics Express<\/em>, <\/em>Vol. 26, No. 13, pp. 16344-16351, May. 2018<\/li>
                  8. Jiaxiong Li, Chengkun Cai, Jiangbing Du, Shoulin Jiang, Lin Ma, Lulu Wang, Long Zhu, Andong Wang, Ming-Jun Li, Hao Chen, Jian Wang, and Zuyuan He, \u201cUltra-Low-Noise Mode-Division Multiplexed WDM Transmission Over 100-km FMF Based on a Second-Order Few-Mode Raman Amplifier,\u201d Journal of Lightwave Technology<\/em>, Vol. 36, No. 16, pp. 3254-3260, May. 2018<\/li>
                  9. Dian Chen, Qingwen Liu, and Zuyuan He, “High-fidelity Distributed Fiber-optic Acoustic Sensor with Fading Noise Suppressed and Sub-meter Spatial Resolution,” Optics Express<\/em>, Vol. 26, No. 13, pp. 16138-16146, Jun. 2018<\/li>
                  10. Shuai Wang, Xinyu Fan, Binxing Xu, Bin Wang, Jingbing Du, and Zuyuan He, \u201cHybrid Dual-Comb Interferometer with Easily Established Mutual Coherence and Very High Refresh Rate,\u201d Optics Letters<\/em>, Vol. 43, No. 14, pp. 3441-3444, Jul. 2018<\/li>
                  11. Yinping Liu, Lin Ma, Chen Yang, Weijun Tong, and Zuyuan He, “Long-range Raman Distributed Temperature Sensor with High Spatial and Temperature Resolution Using Graded-index Few-mode Fiber,” Optics Express, <\/em>Vol. 26, No. 16, pp. 20562-20571, Jul. 2018<\/li>
                  12. Mengshi Wu, Xinyu Fan, Qingwen Liu, Zuyuan He, “Highly Sensitive Quasi-distributed Fiber-optic Acoustic Sensing System by Interrogating a Weak Reflector Array,” Optics Letters<\/em>, Vol. 43, No. 15, pp. 3594-3597, Jul. 2018<\/li>
                  13. Xiao Xu, Lin Ma, Marika Immonen, Xinhong Shi, Brandon Swatowski, Jon V. DeGroot and Zuyuan He, \u201cPractical Evaluation of Polymer Waveguides for High-Speed and Meter-Scale On-Board  Optical Interconnects,\u201d Journal of lightwave technology<\/em>, Vol.36, No.16, pp. 3486-3493, Aug. 2018<\/li>
                  14. Shoulin Jiang, Lin Ma, Shuai Wang, Xinyu Fan, Zuyuan He, “Mode Interference Induced Oscillation in Propagation Speed of Fiber Fuse in Few-mode Fibers,” Optics Letters<\/em>, Vol. 43, No. 17, pp.  4252-4255, Sep. 2018<\/li>
                  15. Chenyu Liang, Wenjia Zhang, Ling Ge, and Zuyuan He, “Mode Partition Mitigation for VCSEL-MMF Links by Using Wavefront Shaping Technique,” Optics Express<\/em>, Vol. 26, No. 22, pp. 28641-28650, Oct. 2018<\/li>
                  16. Guangyao Yang, Xinyu Fan, Bin Wang and Zuyuan He, “Enhancing Strain Dynamic Range of Slope-assisted BOTDA by Manipulating Brillouin Gain Spectrum Shape,” Optical Express<\/em>, Vol. 26, No. 25, pp.32599-32607, Nov. 2018<\/li>
                  17. Shoulin Jiang, Lin Ma, Zhaopeng Zhang, Xiao Xu, Shuai Wang, Jiangbing Du, Chen Yang, Weijun Tong, and Zuyuan He, ” Design and Characterization of Ring-Assisted Few-Moder Fibers for Weakly Coupled Mode-Division Multiplexing Transmission,” Journal of Lightwave Technology<\/em>, Vol. 36, No. 23, pp. 5547-5555, Dec. 2018<\/li>
                  18. Xiao Xu, Lin Ma, Chinami Marushima, Takaaki Ishigure, and Zuyuan He, “Design and Fabrication of Broadband Polymer Mode (De)multiplexer using Direct Inscribing Method”, IEEE Photonics Journal<\/em>, Vol. 10, No. 6, pp. 1-8, Dec. 2018<\/li>
                  19. Bin Wang, Xinyu Fan, Yuanxiu Fu, and Zuyuan he, “Dynamic Strain Measurement with KHz-level Repetition Rate and Centimeter-level Spatial Resolution based on Brillouin Optical Correlation Domain Analysis,” Optics Express,<\/em> Vol. 26, No. 6, pp.6916, Mar. 2018<\/li><\/ol>\n\n\n\n\n\n\n\n

                    2017<\/h2>\n\n\n\n
                    1. Jiaxiong Li, Jingbing Du, Lin Ma, Ming-Jun Li, Shoulin Jiang, Xiao Xu, and Zuyuan He. “Coupling Analysis of Non-Circular-Symmetric Modes and Design of Orientation-Insensitive Few-Mode Fiber Couplers.” Optics Communications,<\/em> Vol. 383, pp. 42-49, 2017<\/li>
                    2. Jiaxiong Li, Jiangbing Du, Lin Ma, Ming-Jun Li, Ke Xu, and Zuyuan He. “Second-Order Few-Mode Raman Amplifier for Mode-Division Multiplexed Optical Communication Systems.” Optics Express,<\/em> Vol. 25, No. 2, pp. 810-820, 2017<\/li>
                    3. Bin Wang, Xinyu Fan, Shuai Wang, Jiangbing Du, and Zuyuan He. “Millimeter-Resolution Long-Range OFDR Using Ultra-Linearly 100 GHz-Swept Optical Source Realized by Injection-Locking Technique and Cascaded FWM Process.” Optics Express,<\/em> Vol. 25, No. 4, pp. 3514-3524, 2017<\/li>
                    4. Dian Chen, Qingwen Liu, and Zuyuan He. “Phase-Detection Distributed  Fiber-Optic Vibration Sensor without Fading-Noise Based on Time-Gated Digital OFDR.” Optics Express,<\/em> Vol. 25, No. 7, pp. 8315-8325, 2017<\/li>
                    5. Shuai Wang, Xinyu Fan, Bin Wang, Guangyao Yang, and Zuyuan He. “Sub-THz-Range Linearly Chirped Signals Characterized Using Linear Optical Sampling Technique to Enable Sub-Millimeter Resolution for Optical Sensing Applications.” Optics Express,<\/em> Vol. 25, No. 9, pp. 10224-10233, 2017<\/li>
                    6. Dian Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He. “Distributed Fiber-Optic Acoustic Sensor with Enhanced Response Bandwidth and High Signal-to-Noise Ratio.” Journal of Lightwave Technology,<\/em> Vol. 35, No. 10, pp. 2037-2043, 2017<\/li>
                    7. \u4f55\u7956\u6e90\uff0c\u5218\u5e86\u6587\uff0c&\u9648\u5609\u5e9a\uff0c\u201c\u9762\u5411\u5730\u58f3\u5f62\u53d8\u89c2\u6d4b\u7684\u8d85\u9ad8\u5206\u8fa8\u7387\u5149\u7ea4\u5e94\u53d8\u4f20\u611f\u7cfb\u7edf\uff0c\u201d\u7269\u7406\u5b66\u62a5\uff0c<\/em>Vol.66\uff0cNo. 7\uff0cpp. 74208-074208\uff0c2017<\/li>
                    8. Lin Sun, Jiangbing Du, Yue You, Chenyu Liang, Wenjia Zhang, Lin Ma, and Zuyuan He, ” 45-Gbps 3D-CAP Transmission over A 16-GHz Bandwidth SSMF Link Assisted by Wiener Filtering,” Optics Communications, <\/em>Vol. 389, pp. 118-122, 2017<\/li>
                    9. Qingwen Liu, Mengxin Wu, Jiageng Chen, and Zuyuan He. \u201cCoherent Pound-Drever-Hall Technique for High Resolution Fiber-optic Sensors at Low Probe Power.\u201d  IEEE Journal of Lightwave Technology,<\/em> DOI: 10.1109\/JLT.2017.2749335, 2017<\/li>
                    10. Zuyuan He, Qingwen Liu, Jiageng Chen, and Tomochika Tokunaga, \u201cUltrahigh Resolution Fiber Bragg Grating Sensors for Quasi-static Crustal Deformation Measurement,\u201d IEEE Journal of Lightwave Technology,<\/em> Vol. 35, No. 16, pp. 3334-3346, DOI: 10.1109\/JLT.2016.2591724, 2017 (Tutorial Review)<\/li>
                    11. Jiageng Chen, Qingwen Liu, and Zuyuan He. \u201cTime-Domain Multiplexed High Resolution Fiber Optics Strain Sensor System Based on Temporal Response of Fiber Fabry-Perot Interferometers.\u201d Optics Express,<\/em> Vol. 27, No. 18, pp. 21914-21925, 2017<\/li>
                    12. Xiao Xu, Lin Ma, Shoulin Jiang, and Zuyuan He, \u201cCircular-Core Single-Mode Polymer Waveguide for High-Density and High-Speed Optical Interconnects Application at 1550nm,\u201d Optics Express<\/em>, Vol. 25, No. 21, pp. 25689\u201325696, 2017<\/li>
                    13. Shoulin Jiang, Lin Ma, Xinyu Fan, Shuai Wang and Zuyuan He, \u201cObservation of Fiber Fuse Propagation Speed with High Temporal Resolution Using Heterodyne Detection and Time\u2013Frequency Analysis,\u201d Optics Letters<\/em>, Vol. 42, No. 17, pp. 3355-3358, 2017<\/li>
                    14. Yinping Liu, Lin Ma and Zuyuan He, \u201cBirefringence Variation Independent Fiber-Optic Current Sensor Using Real-Time SOP Measurement,\u201d IEEE Photonics Journal<\/em>, Vol. 9, No. 5, pp. 1-9, 2017<\/li>
                    15. Xinyu Fan, Guangyao Yang, Shuai Wang, Qingwen Liu, Zuyuan He, \u201cDistributed Fiber-Optic Vibration Sensing Based on Phase Extraction from Optical Reflectometry,\u201d Journal of Lightwave Technology, <\/em>Vol. 35, No. 16, pp. 3281-3288, Aug. 2017 (Invited Paper)<\/li>
                    16. Jianfeng Xu, Jiangbing Du, Rongrong Ren, Zhengshang Ruan, and Zuyuan He, \u201cOptical Interferometric Synthesis of PAM4 Signals based on Dual-drive Mach-Zehnder Modulation,\u201d Optics Communications, <\/em>402: 73-79, Nov. 2017<\/li>
                    17. Shuai Wang, Xinyu Fan, Bingxin Xu, Zuyuan He, \u201cDense Electro-optic Frequency Comb Generated by Two-stage Modulation for Hybrid Dual-comb Spectroscopy,\u201d Optics Letters<\/em>, Vol. 42, No. 19, pp. 3984-3987, Oct. 2017<\/li>
                    18. Kwang Yong Song, Kazuo Hotate, Weiwen Zou, Zuyuan He, \u201cApplications of Brillouin Dynamic Grating to Distributed Fiber Sensors,\u201d Journal of Lightwave Technology, <\/em>Vol. 35, No. 16, pp. 3268-3280, Aug. 2017<\/li>
                    19. Cheng Zhou, Jiangbing Du, Zuyuan He, \u201cWideband Dispersion Flattening for Whispering Gallery Mode Microresonators Fabricated by Laser Micromachining,\u201d IEEE Photonics Journal<\/em>, Vol. 9, No. 6, pp. 7908008, Dec. 2017<\/li>
                    20. Jiageng Chen, Qingwen Liu, and Zuyuan He, \u201cHigh Resolution Simultaneous Measurement of Strain and Temperature Using  pi-Phase-Shifted FBG in Polarization Maintaining Fiber,\u201d Journal of Lightwave Technology, <\/em>Vol. 35, No. 22, pp. 4838-4844, Nov. 2017<\/li>
                    21. Shuai Wang, Xinyu Fan and Zuyuan He, \u201cUltra-high Resolution Optical Reflectometry Based on Linear Optical Sampling Technique with Digital Dispersion Compensation,\u201d IEEE Photonics Journal, <\/em>Vol. 9, No. 6, Dec. 2017<\/li>
                    22. Bin Wang, Xinyu Fan, Jiangbing Du, Zuyuan He, \u201cPerformance Enhancement of Brillouin Optical Correlation Domain Analysis Based on Frequency Chirp Magnification,\u201d Chinese Optics Letters<\/em>, Vol. 15, No. 12, pp. 120601, Oct. 2017<\/li>
                    23. C. Liang, W. Zhang, L. Sun, Y. You, F. Yang, J. Du and Z. He, ” Experimental Demonstration of 4×80-Gbit\/s PAM-4 Transmission over 8-km SSMF Using Wiener Filter,” Electronics Letters, <\/em>Vol. 53, pp. 494-496, 2017<\/li>
                    24. Guangyao Yang, Xinyu Fan, and Zuyuan He, \u201cStrain Dynamic Range Enlargement of Slope-assisted BOTDA by using Brillouin Phase-gain Ratio,\u201d IEEE Journal of Lightwave Technology<\/em>, Volume 35, Issue 20, pp. 4451, October 2017<\/li><\/ol>\n\n\n\n\n\n\n\n

                      2016<\/h2>\n\n\n\n
                      1. Shoulin Jiang, Lin Ma, Xinyu Fan, Bin Wang, and Zuyuan He, ” Real-Time Locating and Speed Measurement of Fiber Fuse Using Optical Frequency-Domain Reflectometry,” Scientific Reports<\/em>, Vol. 6, 2016<\/li>
                      2. Jiageng Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Ultrahigh Resolution Optical Fiber Strain Sensor Using Dual Pound-Drever-Hall Feedback Loops,” Optics Letters<\/em>, Vol. 41, No. 5, pp. 1066-1069, 2016<\/li>
                      3. Jiageng Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Sub-Nano-Strain Multiplexed Fiber Optic Sensor Array for Quasi-Static Strain Measurement,” IEEE Photonics Technology Letters, <\/em>Vol. 28, No. 21, pp. 2311-2314, 2016<\/li>
                      4. Bin Wang, Xinyu Fan, Shuai Wang, Guangyao Ynag, Qingwen Liu, and Zuyuan he, ” Laser Phase Noise Compesation in Long- Range OFDR by Using an Optical Fiber Delay Loop,” Optics Communications, <\/em>Vol. 365, pp. 220-224, 2016<\/li>
                      5. Guangyao Ynag, Xinyu Fan, Shuai Wang, Bing Wang, Qingwen Liu, and Zuyuan He, ” Long-Range Distributed Vibration Sensing Based on Phase extraction from Phase-Sensitive OTDR,” IEEE Photonics Journal, <\/em>Vol. 8, No. 3, pp. 1-12, 2016<\/li>
                      6. Ke Xu, Lin Sun, Yongqiang Xie, Qinghai Song, Jiangbing Du, and Zuyuan He, ” Transmission of IM\/DD Signals at 2 \u03bcm Wavelength Using PAM and Cap,” IEEE Photonics Journal, <\/em>Vol. 8, No. 5, pp. 1-7, 2016<\/li>
                      7. Sun Lin, Jiangbing Du, and Zuyuan He, ” Multiband Three-Dimensional Carrierless Amplitude Phase Modulation for Short Reach Optical Communications,” Journal of Lightwave Technology<\/em>, Vol. 34, No. 13, pp. 3103-3109, 2016<\/li>
                      8. Jiangbing Du, Yemeng Tao, Yinping Liu, Lin Ma, Wenjia Zhang, and Zuyuan He, ” Highly Sensitive and Reconfigurable Fiber Optic Current Sensor by Optical Recirculating in a Fiber Loop,” Optics Express<\/em>, Vol. 24, No. 16, pp. 17980-17988, 2016<\/li>
                      9. \u5f90\u6653\uff0c\u9a6c\u9e9f\uff0c\u5f20\u6587\u7532\uff0c\u675c\u6c5f\u5175\uff0c&\u4f55\u7956\u6e90\uff0c\u201c\u9762\u5411\u5149\u5370\u5237\u7535\u8def\u677f\u7684\u805a\u5408\u7269\u5149\u6ce2\u5bfc\u5236\u5907\u53ca\u6027\u80fd\u7814\u7a76\uff0c\u201d\u5149\u5b66\u5b66\u62a5<\/em>\uff0cVol. 6\uff0cpp. 020\uff0c2016<\/li>
                      10. \u674e\u9732\uff0c\u675c\u6c5f\u5175\uff0c\u5f90\u957f\u946b\uff0c\u5b59\u6797\uff0c\u674e\u4f73\u718a\uff0c&\u4f55\u7956\u6e90\uff0c\u201c\u57fa\u4e8e\u79fb\u9891\u73af\u8def\u6269\u9891\u7684\u65b0\u578b\u5bbd\u5e26\u626b\u9891\u5149\u6e90\uff0c\u201d\u4e2d\u56fd\u6fc0\u5149<\/em>\uff0cVol. 43\uff0cNo. 5\uff0cpp. 130-135\uff0c2016<\/li>
                      11. \u9676\u51b6\u68a6\uff0c\u675c\u6c5f\u5175\uff0c\u9a6c\u9e9f\uff0c\u5f90\u957f\u946b\uff0c\u5218\u94f6\u840d\uff0c&\u4f55\u7956\u6e90\uff0c\u201c\u57fa\u4e8e\u5149\u73af\u5f62\u6280\u672f\u7684\u9ad8\u7cbe\u5ea6\u5149\u7ea4\u7535\u6d41\u4f20\u611f\u5668\uff0c\u201d\u5149\u901a\u4fe1\u6280\u672f<\/em>\uff0cVol. 9\uff0cpp. 30-32\uff0c2016<\/li><\/ol>\n\n\n\n\n\n\n\n

                        2015<\/h2>\n\n\n\n
                        1. Qingwen Liu, Zuyuan He, and Tomochika Tokunaga, ” Sensing the Earth Crustal Deformation with Nano-Strain Resolution Fiber-Optic Sensors,” Optics Express, <\/em><\/em>Vol. 23, No. 11, pp. A428-A436, 2015<\/li>
                        2. Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Time-Gated Digital Optical Frequency Domain Reflectometry with 1.6-m Spatial Resolution over Entire 110-km Range,” Optics Express<\/em>, Vol. 23, No. 20, pp. 25988-25995, 2015<\/li>
                        3. Shuai Wang, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Distributed Fiber-Optic Vibration Sensing Based on Phase Extraction from Time-Gated Digital OFDR,” Optics Express, <\/em>Vol. 23, No. 26, pp. 33301-33309, 2015<\/li>
                        4. Lin Sun, Jiangbing Du, Lu Li, and Zuyuan He, ” High Order SSB Modulation and Its Application for Advanced Optical Comb Generation Based on RFS,” Optics Communications, <\/em><\/em>Vol. 354, pp. 380-385, 2015<\/li>
                        5. Jiaxiong Li, Jiangbing Du, Shuai Wang, Lu Li, Lin Sun, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Improving the Spatial Resolution of an OFDR Based on Recirculating Frequency Shifter,” IEEE Photonics Journal, <\/em>Vol. 7, No. 5, pp. 1-10, 2015<\/li>
                        6. Jiangbing Du, Lu Li, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Sensitivity Enhancement for Fiber Bragg Grating Sensors by Four Wave Mixing,” Photonics, <\/em>Vol. 2, No. 2, Multidisciplinary Digital Publishing Institute, 2015<\/li><\/ol>\n\n\n\n\n\n\n\n

                          2014<\/h2>\n\n\n\n
                          1. Weiwen Zou, Zuyuan He, and Kazuo Hotate, ” Range Elongation of Distributed Discrimination of Strain and Temperature in Brillouin Optical Correlation-Domain Analysis Based on Dual Frequency Modulations,” IEEE Sensors Journal<\/em>, Vol. 14, No. 1, pp. 244-248, 2014<\/li>
                          2. Rodrigo Kendy Yamashita, Zuyuan He, and Kazuo Hotate, ” Spatial Resolution Improvement in Correlation Domain Distributed Measurement of Brillouin Grating,” IEEE Photonics Technology Letters, <\/em>Vol. 26, No. 5, pp. 473-476, 2014<\/li><\/ol>\n\n\n\n\n\n\n\n

                            2013<\/h2>\n\n\n\n
                            1. Yusuke Koshikiya, Xinyu Fan, Fumihiko Ito, Zuyuan He, and Kazuo Hotate. “High resolution PNC-OFDR with suppressed fading noise for dispersive media measurement.” Journal of Lightwave Technology,<\/em> Vol. 31, No. 6, pp. 866-873, 2013<\/li>
                            2. Xijing Wang, Zuyuan He, and Kazuo Hotate. “Automated Suppression of Polarization Fluctuation in Resonator Fiber Optic Gyro With Twin 90 Polarization-Axis Rotated Splices.” Journal of Lightwave Technology,<\/em> Vol. 31, No. 3, pp. 366-374, 2013<\/li>
                            3. Zuyuan He, Qingwen Liu, and Tomochika Tokunaga. “Ultrahigh resolution fiber-optic quasi-static strain sensors for geophysical research.” Photonic Sensors,<\/em> Vol. 3, No. 4, pp. 295, 2013<\/li>
                            4. Kazuo Hotate, Weiwen Zou, Rodrigo Kendy Yamashita, and Zuyuan He. “Distributed discrimination of strain and temperature based on Brillouin dynamic grating in an optical fiber.” Photonic Sensors,<\/em> Vol. 3, No. 4, pp. 332-344, 2013<\/li>
                            5. Jiangbing Du, and Zuyuan He. “FBG sensor for strain measurement with enhanced sensitivity by using degenerated FWM in highly nonlinear fibre.”Electronics Letters,<\/em> Vol. 49, No. 22, pp. 1399-1401, 2013<\/li>
                            6. Jiangbing Du, and Zuyuan He. “Sensitivity enhanced strain and temperature measurements based on FBG and frequency chirp magnification.” Optics express,<\/em> Vol. 21, No. 22, pp. 27111-27118, 2013<\/li><\/ol>\n<\/div>","protected":false},"excerpt":{"rendered":"

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