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2025<\/h2>\n\n\n\n
  1. Mingjing Xu, Lin Ma, Fengrui Yu, Yunhe Zhao, and Zuyuan He, “First Demonstration of Multicore Fiber Long Period Gratings using Femtosecond Laser Direct Inscription Technique<\/strong>,” 2025 Optical Fiber Communications Conference and Exhibition (OFC 2025)<\/em>, W4J.6, Optica (OSA), San Francisco (US), Mar. 2025, Oral<\/li>
  2. Fengrui Yu, Lin Ma, Junjie Xiong, Linbin Bai, Mingjing Xu, and Zuyuan He, “Low-loss fan-in\/fan-out device for coupled four-core fiber using a femtosecond laser direct inscription technique<\/strong>,” 2025 Optical Fiber Communications Conference and Exhibition (OFC 2025)<\/em>, M4J.5, Optica (OSA), San Francisco (US), Mar. 2025, Oral<\/li>
  3. Zhicheng Jin, Jiageng Chen, Hanzhao Li, Yanming Chang, Qingwen Liu, Xuhui Yu, and Zuyuan He, “Silicon Photonic Integrated Transceiver-Based Brillouin Optical Time-Domain Reflectometer<\/strong>,” 2025 Conference on Lasers and Electro-Optics (CLEO 2025)<\/em>, 4211295, Optica (OSA), Long Beach (US), May. 2025, Oral<\/li>
  4. Qianyu Zhou, Yangyang Wan, Xinyu Fan, and Zuyuan He, “High-Accuracy Compact Computational Spectropolarimeter Using Leaky Mode Speckles Generated by Tapered Coreless Fiber<\/strong>,” 2025 Conference on Lasers and Electro-Optics (CLEO 2025)<\/em>, 4234565, Optica (OSA), Long Beach (US), May. 2025<\/li>
  5. Yang Zhang, Jiageng Chen, Hanzhao Li, Qingwen Liu, Xuhui Yu, and Zuyuan He, “Fast Brillouin optical time-domain reflectometry with simplex coding and coherent detection<\/strong>,” 2025 Conference on Lasers and Electro-Optics (CLEO 2025)<\/em>, PS200.102, Optica (OSA), Long Beach (US), May. 2025<\/li>
  6. Yimin Luo, Qingwen Liu, Chaozhu Liu, Huanmo Zhou, Xinyu Fan and Zuyuan He, “High-frequency response TGD-OFDR-based distributed acoustic sensor utilizing frequency-shifting loop<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, Porto (Portugal), May. 2025<\/li>
  7. Jiazhen Ji, Jiageng Chen, Zhengyuan Xiao, Zhengwen Li, Jingdong Zhang, Shengwen Feng, Feng Li, Qingwen Liu, and Zuyuan He, “Broad-bandwidth distributed acoustic sensor with phase offset and phase sensitivity fading compensation<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, Tu6.4, Porto (Portugal), May. 2025<\/li>
  8. Zhengchao Yuan, Xinyu Fan, Bingxin Xu, and Zuyuan He, “High-resolution mid-infrared dual electro-optic comb spectroscopy based on spectral interleaving<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, Porto (Portugal), May. 2025<\/li>
  9. Rongrong Niu, Qingwen Liu, Yanming Chang, and Zuyuan He, “Quasi-Distributed Hybrid Dynamic-Static Signal Interrogation System Using 100-kHz Linewidth Laser<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, Porto (Portugal), May. 2025, PDP<\/strong><\/li>
  10. Rongrong Niu, Qingwen Liu, Yanming Chang, and Zuyuan He, “Quasi-Distributed Acoustic Sensing with DSB-OFDR for large Measurement Range and Enhanced Frequency Response<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, Tu3.7, Porto (Portugal), May. 2025, Oral<\/li>
  11. Rongrong Niu , Qingwen Liu, and Zuyuan He, “A hybrid demodulation algorithm for high-sensitivity and wide-range quasi-distributed fiber optic sensing<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, W5.32, Porto (Portugal), May. 2025<\/li>
  12. Yidai Zhu , Yangyang Wan , Sizhe Zhang , Xinyu Fan, and Zuyuan He, “Distributed magnetic sensing with high precision and long distance using polarization-sensitive optical frequency domain reflectometry<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29), W5.32, Porto (Portugal)<\/em>, May. 2025<\/li>
  13. Zhicheng Jin, Jiageng Chen, Yang Zhang, Mengying Ru, Zhengwen Li, Hanzhao Li, Keke Hu, Xuhui Yu, and Zuyuan He, “Silicon photonic interrogator for Brillouin optical time-domain analysis<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, W5.32, Porto (Portugal), May. 2025<\/li>
  14. Qianyu Zhou, Yangyang Wan, Xinyu Fan, Zhengchao Yuan, and Zuyuan He, “Ultrahigh-resolution compact spectropolarimeter based on leaky-mode speckle from random interference and scattering<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, W5.32, Porto (Portugal), May. 2025<\/li>
  15. Yang Zhang, Jiageng Chen, Hanzhao Li, Qingwen Liu, Xuhui Yu, and Zuyuan He, “Long range Brillouin optical time-domain analysis using cyclic m-sequence<\/strong>,” 29th International Conference on Optical Fiber Sensors (OFS-29)<\/em>, OFS100-394, Porto (Portugal), May. 2025<\/li>
  16. Shaoxing Wang, Jiangbing Du, and Zuyuan He, “Third-order hybrid Raman amplifier with 102-nm bandwidth, 30.4-dB gain and -7.6 dB effective noise figure<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, WH1-3, Sapporo (Japan), Jun. 2025, Oral<\/li>
  17. Xinyi Wang, Jiangbing Du, Wenjia Zhang, Weihong Shen, Ke Xu, and Zuyuan He, “High-density MDM silicon transmitter based on two-dimensional grating coupler for single-fiber 4\u00d780-Gbps signalingLong-Range DAS utilizing cascaded acousto-optic modulators and frequency-shifting loop<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, ThD1-5, Sapporo (Japan), Jun. 2025, Oral<\/li>
  18. Zhengchao Yuan, Xinyu Fan, Bingxin Xu, and Zuyuan He, “High-Resolution Mid-Infrared Dual ElectroOptic Comb Spectroscopy Based on Cascaded Modulation<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, WP-C-9, Sapporo (Japan), Jun. 2025<\/li>
  19. Jiazhen Ji, Jiageng Chen, Zhengyuan Xiao, Qingwen Liu, and Zuyuan He, “Broad-bandwidth distributed acoustic sensor with enhanced robustness<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, WC1-4, Sapporo (Japan), Jun. 2025, Oral<\/li>
  20. Jiazhen Ji, Jiageng Chen, Zhengyuan Xiao, Zhengwen Li, Jingdong Zhang, Shengwen Feng, Feng Li, and Zuyuan He, “Optimal order of pulse sequence in frequency division multiplexed distributed acoustic sensor<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, WC1-5, Sapporo (Japan), Jun. 2025, Oral<\/li>
  21. Yimin Luo, Qingwen Liu, Chaozhu Liu, Xinyu Fan and Zuyuan He, “Long-Range DAS utilizing cascaded acousto-optic modulators and frequency-shifting loop<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, C000534, Sapporo (Japan), Jun. 2025, Oral<\/li>
  22. 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>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, M00448, Sapporo (Japan), Jun. 2025, Oral<\/li>
  23. Pengjiu Zhao, Jiangbing Du, Ting Lei, Luping Du, and Zuyuan He, “Reflective Metasurface SDM Connector for Multi-core Fiber FIFO Applications<\/strong>,” Opto-Electronics and Communications Conference 2025 (OECC 2025)<\/em>, M000518, Sapporo (Japan), Jun. 2025, Oral<\/li>
  24. Yang Zhang, Jiageng Chen, Hanzhao Li, Xuhui Yu, and Zuyuan He, “Long-range and high-speed coded BOTDR based on fast fourier transform processing<\/strong>,” International Conference on Optical Communications and Networks 2025 (ICOCN 2025)<\/em>, 0219, Zhangjiajie (China), Jul. 2025, Oral<\/li>
  25. Haowei Sun, Jiageng Chen, Yanming Chang, and Zuyuan He, “Real-time phase noise compensation for frequency sweeping laser source in optical frequency domain reflectometry<\/strong>,” International Conference on Optical Communications and Networks 2025 (ICOCN 2025)<\/em>, 8077, Zhangjiajie (China), Jul. 2025<\/li>
  26. Zihang Wu, Qingwen Liu, and Zuyuan He, “Short-time fourier transform optimization for high-efficiency rayleigh backscattering spectrogram generation in optical frequency domain reflectometry<\/strong>,” International Conference on Optical Communications and Networks 2025 (ICOCN 2025)<\/em>, Zhangjiajie (China), Jul. 2025<\/li>
  27. Jiayuan Guo, Wenjia Zhang, and Zuyuan He, “High-wavelength-uniformity artificial gauge field based micorings for photonic tensor computing<\/strong>,” Asia Communications and Photonics Conference (ACP 2025)<\/em>, ACP2025-0730-58, Suzhou (China), Nov. 2025, Oral<\/li>
  28. Pengjiu Zhao, Jiangbing Du, and Zuyuan He, “Polarization-independent 4-mode multiplexer based on reflective metasurface<\/strong>,” Asia Communications and Photonics Conference (ACP 2025)<\/em>, ACP2025-0815-113, Suzhou (China), Nov. 2025, Oral<\/li><\/ol>\n\n\n\n\n\n\n\n

    2024<\/h2>\n\n\n\n
    1. Yue Jiang, Wenjia Zhang, Jiayuan Guo, Han Wang, and Zuyuan He, “Photonic 1K3D@60 FPS surface extraction with hilbert dimension squeezing approach,” 2024 Optical Fiber Communications Conference and Exhibition (OFC 2024)<\/em>, W3B.5, San Diego (US), Mar. 2024, Oral<\/li>
    2. Xinyi Wang, Jiangbing Du, Jiacheng Liu, Ke Xu, and Zuyuan He, “Mode-folded phase shifter based Reconfigurable Optical Switch with 0.6V\u00b7cm V\u03c0\u00b7L on Thin-film lithium niobate for Channel Scalable Optical Interconnects,” 2024 Conference on Lasers and Electro-Optics (CLEO 2024)<\/em>, SM3G.7, Charlotte (US), May. 2024, Oral<\/li>
    3. Qianyu Zhou, Yangyang Wan, Xinyu Fan, and Zuyuan He, “High-Accuracy Simultaneous Measurement of Spectrum and Full-Stokes Polarization Based on Speckle Pattern,” 2024 Conference on Lasers and Electro-Optics (CLEO 2024)<\/em>, AF1D.4, Charlotte (US), May. 2024, Oral<\/li>
    4. Junyi Duan, Jiageng Chen, Hanzhao Li, and Zuyuan He, “Convolution Network for Phase Unwrapping of Interferometric Fiber Sensing Signals,” 2024 Conference on Lasers and Electro-Optics (CLEO 2024)<\/em>, 4028515, Charlotte (US), May. 2024<\/li>
    5. Jiayuan Guo, Wenjia Zhang, Yue Jiang, and Zuyuan He, “Complex Tensor Convolution in Photonic Frequency Synthetic Dimensions,” 2024 Conference on Lasers and Electro-Optics (CLEO 2024)<\/em>, JTh2A.79, Charlotte (US), May. 2024<\/li>
    6. Chang Ge, Xinyi Wang, Jiangbing Du, Xiaozhong Lin, Ting Lei, Luping Du, and Zuyuan He, “8-inch wafer level through glass via (TGV) interposer with 110-GHz bandwidth facing 128- GBaud 2.5D co-packaged optics (CPO),” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0807-3, Beijing (CN), Nov. 2024, Oral<\/li>
    7. Tianqi cheng, Linbin bai, Zechen li, Lin ma, and Zuyuan he, “Low-Loss Interconnection Between SMF and NANF Using Coreless Fiber Ball-Lens,” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0815-13, Beijing (CN), Nov. 2024, Oral<\/li>
    8. Zhengyuan Xiao, Yichen Pan, Jiageng Chen, Jiazhen Ji, Zhengwen Li, and Zuyuan He, “High-Performance and Low-Cost Distributed Acoustic Sensor with Phase Noise Compensation,” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0730-69, Beijing (CN), Nov. 2024, Oral<\/li>
    9. Yimin Luo, Qingwen Liu, Chaozhu Liu, Xinyu Fan, and Zuyuan He, “A fading noise suppression method based on frequency-shift loop in TGD-OFDR system,” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0801-45, Beijing (CN), Nov. 2024<\/li>
    10. Han Wang, Wenjia Zhang, Yue Jiang, and Zuyuan He, “Modulation Voltage Swing Adaptive Microring Resonant Wavelength Locking Technique,” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0814-63, Beijing (CN), Nov. 2024, Oral<\/li>
    11. Yuming Zhang, Jiangbing Du, Wenlong Zuo, and Zuyuan He, “Meter-length and crossingless Si3N4 waveguide with multimode Euler bend towards integrated optical gyroscope applications,” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0814-49, Beijing (CN), Nov. 2024<\/li>
    12. Xin Ye, Wenjia Zhang, and Zuyuan He, “Integrated spatial photonic Ising sampler based on high-uniformity 1\u00d78 multi-mode interferometer,” 2024 Asia Communications and Photonics Conference (ACP 2024)<\/em>, ACPIPOC-0801-5, Beijing (CN), Nov. 2024<\/li><\/ol>\n\n\n\n

      <\/p>\n\n\n\n\n\n\n\n

      2023<\/h2>\n\n\n\n
      1. Xuying Liu, Wenjia Zhang, Yue Jiang, Dan Lu, Fan Yang, and Zuyuan He, “Integrated w-band photonic-wireless transmitter enabled by silicon microring modulator and on-chip dual-mode DFB laser,” 2023 Optical Fiber Communications Conference and Exhibition (OFC 2023)<\/em>, Tu3J.6, San Diego (US), Mar. 2023<\/li>
      2. Yue Jiang, Wenjia Zhang, Xuying Liu, and Zuyuan He, “Photonic micro-ring tensor core for parallel and shared batch processing,” 2023 Optical Fiber Communications Conference and Exhibition (OFC 2023)<\/em>, M1C.7, San Diego (US), Mar. 2023<\/li>
      3. Linjing Huang, Xinyu Fan, and Zuyuan He, “Scanning-free Brillouin optical time domain analyzer with single-end access,” 2023 Conference on Lasers and Electro-Optics (CLEO 2023)<\/em>, AM3K.6, San Jose (US), May. 2023, Oral<\/strong><\/li>
      4. Xin Ye, Wenjia Zhang, Shaomeng Wang, Xiaoxuan Yang, Jiangbing Du, and Zuyuan He, “Photonic spatial-euler Ising machine for solving 20000-vertex max-cut Problem,” 2023 Conference on Lasers and Electro-Optics (CLEO 2023)<\/em>, JTh2A.32, San Jose (US), May. 2023<\/li>
      5. Jiehui Liu, Lin Ma, and Zuyuan He, “Underwater real-time mobile duplex video transmission using visible light,” 2023 Asia Communications and Photonics Conference (ACP)<\/em>, Wuhan (CHN),<\/li>
      6. Xuelin Zhang, Lei Shen, Jiangbing Du, Jiacheng Liu, Peng Li, Lei Zhang, Jie Luo, and Zuyuan He, “High-fidelity and low-latency hollow-core NANF transmission at 2-\u00b5m band with 112-Gbps\/lambda data-rate and 850-m long distance,” 2023 International Conference on Optical Communications and Networks (ICOCN)<\/em>, 2951, Qufu (CHN), Aug. 2023, Oral (PDP)<\/strong><\/li>
      7. Weiyu Zhang, Jiangbing Du, and Zuyuan He, “130 nm SCL-wideband and -7.1 dB effective-noise-figure amplification using third-order distributed Raman amplifier,” 2023 Opto-Electronics and Communications Conference (OECC)<\/em>, Shanghai (CHN), Aug. 2023, Oral<\/strong><\/li>
      8. Zhengyuan Xiao, Jiageng Chen, Jiazhen Ji, Qingwen Liu, and Zuyuan He, “Complete Phase Noise Compensation for 50 km DAS with 100 kHz Linewidth ITLA,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Hamamatsu (JP), Nov. 2023, Oral (PDP)<\/strong><\/li>
      9. Yanming Chang, Qingwen Liu, He Li, Jiahao Chen, Binglin Chen, and Zuyuan He, “Multi-Resolution Integration Method for High Resolution Non-Uniform Distributed Strain Measurement in OFDR System,”28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Hamamatsu (JP), Nov. 2023, Oral (PDP)<\/strong><\/li>
      10. Zhengchao Yuan, Xinyu Fan, and Zuyuan He, “Mid-Infrared Dual Electro-Optic Comb Spectroscopy with Tunable Spectral Resolution,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Hamamatsu (JP), Nov. 2023, Oral<\/strong><\/li>
      11. Zhicheng Jin, Jiageng Chen, Yanming Chang, Qingwen Liu, and Zuyuan He, “Silicon photonic distributed acoustic sensing interrogator,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Th5.5, Hamamatsu (JP), Nov. 2023, Oral<\/strong><\/li>
      12. Ziwen Long, Xinyu Fan, and Zuyuan He, “A generalized grating equation for two-cascaded virtually imaged phased array based on plane-wave theory,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Tu3.79, Hamamatsu (JP), Nov. 2023<\/li>
      13. Gaocheng Yan, Jiageng Chen, Heng Niu, Feng Qiao and Zuyuan He, “Interferometric fiber-optic sensor for electrical partial discharge detection,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Tu3.42, Hamamatsu (JP), Nov. 2023<\/li>
      14. Sizhe Zhang, Qingwen Liu, Shuangxiang Zhao, Yuanpeng Deng, and Zuyuan He, “Fiber optic current sensor based on resonance frequency difference detection,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Th6.85, Hamamatsu (JP), Nov. 2023<\/li>
      15. Linjing Huang, Xinyu Fan, and Zuyuan He, “Simplified scanning-free Rayleigh-Brillouin distributed fiber-optic sensing system based on double sideband modulation,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Tu3.28, Hamamatsu (JP), Nov. 2023<\/li>
      16. Chengjun Wu, Jiageng Chen, Gaocheng Yan, and Zuyuan He, “A lossless data compression method for distributed acoustic sensors,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, W4.20, Hamamatsu (JP), Nov. 2023<\/li>
      17. Peiyuan Sun, Zhengchao Yuan, Xinyu Fan, and Zuyuan He, “Instantaneous microwave multi-frequency measurement system based on dual electro-optic frequency combs,” 28th International Conference on Optical Fiber Sensors (OFS-28)<\/em>, Th6.75, Hamamatsu (JP), Nov. 2023<\/li>
      18. Tianyan Guo, Jiangbing Du, and Zuyuan He, “Optical forward error correction based on recirculating frequency shifter,” Asia Communications and Photonics Conference (ACP 2023) \/ The International Photonics and OptoElectronics Meetings (POEM 2023) (ACPPOEM2023)<\/em>, ACPPOEM-0726-5, Wuhan (CN), Nov. 2023, Oral<\/strong><\/li>
      19. Yu Tian, Xinyu Fan, and Zuyuan He, “Sound source localization using phase-sensitive optical time-domain reflectometry,” SPIE\/COS Photonics Asia 2023,<\/em> 12771-75, Beijing (CN), Nov. 2023<\/li><\/ol>\n\n\n\n\n\n\n\n

        2022<\/h2>\n\n\n\n
        1. Jiacheng Liu, Jiangbing Du, Weihong Shen, Gangqiang Zhou, Linjie Zhou, Ke Xu, and Zuyuan He, “Ultrahigh extinction ratio silicon micro-ring modulator by MDM resonance for high speed PAM modulation,” Optical Fiber Communication Conference (OFC) 2022<\/em>, Th2A.8, San Diego (US), Mar. 2022<\/li>
        2. Xuying Liu, Wenjia Zhang, Yue Jiang, Dan Lu, Fan Yang, and Zuyuan He, \u201cIntegrated W-band Photonic-Wireless Transmitter Enabled by Silicon Microring Modulator and On-chip Dual-mode DFB Laser,\u201d Optical Fiber Communication Conference (OFC) 2022<\/em>, 3829262, San Diego (US), Mar. 2022<\/li>
        3. Yue Jiang, Wenjia Zhang, Xuying Liu, and Zuyuan He, \u201cPhotonic Micro-Ring Tensor Core for Parallel and Shared Batch Processing,\u201d Optical Fiber Communication Conference (OFC) 2022<\/em>, 3829564, San Diego (US), Mar. 2022<\/li>
        4. Ying Shi, Lin Ma, Motoya Kaneta, Yudi Zhuang, and Zuyuan He, “High-speed performance of 140 cm-long flexible multimode polymer waveguides link supporting 1 mm-radius bend,” Optical Fiber Communication Conference (OFC) 2022<\/em>, M3E.4, San Diego (US), Mar. 2022, Oral<\/strong><\/li>
        5. Shuting Liu, Qingwen Liu, Shuangxiang Zhao, and Zuyuan He, “High resolution fiber grating dynamic strain sensor with broadband light,” Conference on Lasers and Electro-Optics (CLEO)<\/em>, JW3B.10, San Jose (US), May. 2022<\/li>
        6. Junjie Xiong, Lin Ma, and Zuyuan He, “Low loss all-fiber fan-in\/fan-out device for coupled-core four-core Fibers,” Optoelectronics and Communications Conference (OECC)<\/em>, MC2-2, Toyama (JP), Jul. 2022, Oral<\/li>
        7. Qiang Ma, Lin Ma, Yudi Zhuang, Heyuan Li, and Zuyuan He, \u201cLow loss polymeric spot-size converter with two-step index transition cladding for fiber-to-chip connection,\u201d 2022 27th OptoElectronics and Communications Conference (OECC) and 2022 International Conference on Photonics in Switching and Computing (PSC)<\/em>, 21989661, Toyama, Jul. 2022<\/li>
        8. Linjing Huang, Xinyu Fan, and Zuyuan He, “Simplified hybrid distributed fiber-optic sensing system by using Brillouin pump pulse to amplify Rayleigh backscattering lightwave,” 25th International Conference on Optical Fiber Sensors (OFS-25)<\/em>, 3756942, Alexandria (US), Aug. 2022<\/li>
        9. Jiaxi Yuan, Jiangbing Du, Jiacheng Liu, and Zuyuan He, \u201cInvestigation and optimization of thin-film-lithium-niobate array-waveguide-grating with the influence of fabrication tolerance,\u201d 2022 20th International Conference on Optical Communications and Networks (ICOCN)<\/em>, 22115426, Shenzhen, Aug. 2022<\/li>
        10. Zixiang Dai, Junjie Xiong, Lin Ma, and Zuyuan He, \u201cLow-Loss and Low-Crosstalk Fan-in\/Fan-out Device for Multicore Fiber Using a Femtosecond Laser Direct Inscription Technique,\u201d 2022 20th International Conference on Optical Communications and Networks (ICOCN)<\/em>, 22115351, Shenzhen, Aug. 2022<\/li>
        11. Zhiqin He, Xinyi Chen, Jiangbing Du, and Zuyuan He, \u201cA Fiber Design Automation Platform Based on Deep Learning,\u201d 2022 20th International Conference on Optical Communications and Networks (ICOCN)<\/em>, 22115442, Shenzhen, Aug. 2022<\/li>
        12. Jiaxi Yuan, Jiangbing Du, Jiacheng Liu, and Zuyuan He, \u201cArrayed-waveguide-grating based on proton exchange and etching combined fabrication over bulk Lithium-Niobate substrate,\u201d 2022 IEEE 24th International Workshop on Multimedia Signal Processing (MMSP)<\/em>, 22294834, Shanghai, Sep. 2022<\/li>
        13. Xuying Liu, Wenjia Zhang, Yue Jiang, and Zuyuan He, \u201cW-Band Communication Transmitter Enabled by Silicon Photonic Microring Modulators,\u201d 2022 Asia Communications and Photonics Conference (ACP)<\/em>, 4335, Shenzhen, Nov. 2022<\/li>
        14. Ziwen Long, Xinyu Fan, and Zuyuan He, \u201cSolid-state Multi-beam Scanning Single-photon Lidar System Based on Cascaded VIPA and SPAD Array,\u201d 2022 Asia Communications and Photonics Conference (ACP)<\/em>, Shenzhen, Nov. 2022<\/li>
        15. Songte Zhang, Wenjia Zhang*, and Zuyuan He, \u201cSmall Reservoirs Make a Mickle: Distributed Reservoir-Computing based Equalization for 100 Gb\/s VCSEL-enabled Optical Interconnects,\u201d 2022 Asia Communications and Photonics Conference (ACP)<\/em>, 6564, Shenzhen, Nov. 2022<\/li>
        16. Xu Liu, Lin Ma, Ying Shi, Yudi Zhuang and Zuyuan He, \u201cPCB lamination process compatible low-loss single-mode polymer waveguides,\u201d 2022 Asia Communications and Photonics Conference (ACP)<\/em>, 4429, Shenzhen, Nov. 2022<\/li>
        17. Yue Jiang, Wenjia Zhang, Xuying Liu, Wenyu Zhu, and Zuyuan He, \u201cPhysical Aware Clustering Training Method for Integrated Photonic Convolution Neural Network with Nonlinear Distributed Weights,\u201d 2022 Asia Communications and Photonics Conference (ACP)<\/em>, 7912, Shenzhen, Nov. 2022<\/li>
        18. Sida Zeng, Xinyu Fan, and Zuyuan He, \u201cRaman distributed temperature sensor based on pulse compression technique using hybrid modulation method,\u201d SPIE\/COS Photonics Asia<\/em>, 123211J, Online, Dec. 2022<\/li><\/ol>\n\n\n\n\n\n\n\n

          2021<\/h2>\n\n\n\n
          1. Fan Yang, Wenjia Zhang, Yue Jiang, Jifang Tao, and Zuyuan He, “Photonic sensor and miniature interrogator based on cascaded silicon microring resonators,” 2021 Optical Fiber Communications Conference and Exhibition (OFC)<\/em>, San Diego (US), Jun. 2021<\/li>
          2. Weihong Shen, Gangqiang Zhou, Jiangbing Du, Linjie Zhou, Ke Xu, and Zuyuan He, “High-speed silicon micro-ring modulator at 2-\u03bcm waveband,” The 26th Optoelectronics and Communications Conference (OECC),<\/em> T5A.7, HongKong (CN), Jul. 2021, Oral (Postdeadline paper)<\/strong><\/li>
          3. Zhaonian Wang, Jiangbing Du, Weihong Shen, Jiacheng Liu, Ke Xu, and Zuyuan He, “Agile dispersion engineering of photonic waveguides by using neural network aided inverse design<\/a>,” The 26th Optoelectronics and Communications Conference (OECC),<\/em> W4F.5, HongKong (CN), Jul. 2021 (Best student paper)<\/strong><\/li>
          4. Ying Shi, Bingxin Xu, Lin Ma, Junjie Xiong, Xinyu Fan, Yudi Zhuang, Zuyuan He, “Bandwidth evaluation of 11 cm-long polymer waveguides based on optical sampling technique<\/a>,” SPIE\/COS Photonics Asia 2021<\/em>, 119010K, Nantong (CN), Oct. 2021<\/li>
          5. Jiacheng Liu, Gangqiang Zhou, Jiangbing Du, Weihong Shen, Linjie Zhou, and Zuyuan He, “Mode-conversion based silicon Mach-Zehnder modulator with L-shaped PN junction for 0.37-Vcm V L high efficiency modulation,” Asia Communications and Photonics Conference 2021<\/em>, Shanghai (CN), Oct. 2021 (Best poster award)<\/strong><\/li><\/ol>\n\n\n\n\n\n\n\n

            2020<\/h2>\n\n\n\n
            1. Yangyang Wan, Xinyu Fan, Shuai Wang, Zhaopeng Zhang, and Zuyuan He, “Rayleigh speckles obtained from single mode fiber for wavelength measurement ,” Optical Fiber Communication Conference (OFC),<\/em> W2A.19, San Diego (US), Mar. 2020<\/li>
            2. Bocheng Zhou, Xinyu Fan, and Zuyuan He, “Raman distributed temperature sensor based on intensity-modulated pulse compression technique,” The 27th International Conference on Optical Fiber Sensors \uff08OFS),<\/em> 3387217, Virginia (US), Mar. 2020<\/li>
            3. Yufeng Chen, Jiangbing Du, Jiaxiong Li, Lei Shen, Jie Luo, and Zuyuan He, “Time-wavelength-mode equalization by PSO for random fiber laser based FMF Raman amplifier,” Optical Fiber Communication Conference (OFC),<\/em> W4B.1, San Diego (US), Mar. 2020, Oral<\/li>
            4. Yufeng Chen, Jiangbing Du, Yuting Huang, Ke Xu, and Zuyuan He, “Intelligent gainflattening of FMF Raman amplification by machine learning based inverse design,” Optical Fiber Communication Conference (OFC),<\/em> T4B.1, San Diego (US), Mar. 2020, Oral<\/li>
            5. Chenyu Liang, Wenjia Zhang, Ling Ge, Jiangbing Du, Zuyuan He, “Nonlinear Pre-Distortion Based on Indirect Learning Architecture and Cross-Correlation-Enabled Behavioral Modeling for 120-Gbps Multimode Optical Interconnects,” Optical Fiber Communication Conference (OFC),<\/em> W2A.31, San Diego (US), Mar. 2020<\/li>
            6. Weihong Shen, Jiangbing Du, Lin Sun, Chang Wang, Ke Xu, Baile Chen, and Zuyuan He, “100-Gbps 100-m Hollow-Core Fiber Optical Interconnection at 2-micron waveband by PS-DMT,” Optical Fiber Communication Conference (OFC),<\/em> Th2A.1, San Diego (US), Mar. 2020<\/li>
            7. Zhiqin He, Jiangbing Du, Weihong Shen, Yuting Huang, Chang Wang, Ke Xu, and Zuyuan He, “Inverse design of few-mode fiber by Neural Network for weak-coupling optimization,” Optical Fiber Communication Conference (OFC),<\/em> W2A.15, San Diego (US), Mar. 2020<\/li>
            8. Weihong Shen, Pingyang Zeng, Jiangbing Du, Bin Zhang, Zhaohui Li, Ke Xu, and Zuyuan He, “Chalcogenide Photonic Integration at 2 Micron with Improved Wavelength and Fabrication Dependency,” Conference on Lasers and Electro-Optics (CLEO),<\/em> STh4L.3, San Diego (US), May. 2020, Oral<\/li>
            9. Peiyuan Xu, Wenjia Zhang, and Zuyuan He, “Optical field manipulation for highly efficient wireless laser power transmission,” International Conference on Microwave and Millimeter Wave Technology 2020 (ICMMT2020),<\/em> 735, Shanghai (CN), Jan. 2020<\/li>
            10. Wanjing Kuang, Lin Ma, and Zuyuan He, “Low loss polymer wavelength (de)multiplexer interposing Si waveguide and single-mode fiber using topology optimization,” OECC 2020,<\/em> T5-2.4, Taipei, Oct. 2020<\/li>
            11. Zhijie Huang, Lin Ma, Wanjing Kuang, Ying Shi, and Zuyuan He, “Automatic high-density polymer waveguide layout for on-board high-speed optical interconnect,” OECC 2020,<\/em> T5-1.4, Taipei, Oct. 2020<\/li>
            12. Shuangxiang Zhao, Qingwen Liu, and Zuyuan He, “Multi-tone Pound-Drever-Hall technique for fiber Fabry-Perot resonator sensor network, ” 14th Pacific Rim Conference on Lasers and Electro-Optics,<\/em> C3D_4, Online, Aug. 2020<\/li><\/ol>\n\n\n\n\n\n\n\n

              2019<\/h2>\n\n\n\n
              1. Fan Yang, Wenjia Zhang, Shuangxiang Zhao, Qingwen Liu, Jifang Tao, and Zuyuan He, “Real-time interrogation of multiplexed FBG strain sensors based on a thermally tunable microring resonator array,” Optical Fiber Communication Conference (OFC)<\/em>, M2J.2, San Diego (US), Mar.2019<\/li>
              2. Yuyao Huang, Wenjia Zhang, Fan Yang and Zuyuan He, “Optical matrix manipulation based on frequency comb modulation and dispersed time delay,” Optical Fiber Communication Conference (OFC)<\/em>, M1B.4, San Diego (US), Mar.2019<\/li>
              3. Yinping Liu, Lin Ma, Wufeng Xiao, Runhan Wang, and Zuyuan He, “Wide band multimode fiber with a 30 \u03bcm-core and fluorine-doped cladding to support error-free 4\u00d725 Gb\/s SWDM transmission over 250 meters,” Optical Fiber Communication Conference (OFC)<\/em>, M3C.4, San Diego (US), Mar. 2019, Oral<\/li>
              4. Lin Sun, Jiangbing Du, Ke Xu, Bo Liu, and Zuyuan He, “K-means assisted soft decision of PAM4 to mitigate level nonlinearity and level-dependent noise for VCSEL-based 100-Gbps 100-m MMF optical interconnection,” 2019 Optical Fiber Communications Conference and Exhibition (OFC),<\/em> San Diego (US), Mar. 2019<\/li>
              5. Jiageng Chen, Qingwen Liu, and Zuyuan He, “High resolution \u03c0-phase-shifted fiber Bragg grating demodulator using frequency swept DFB laser,” CLEO 2019<\/em>, JW2A.101, May. 2019<\/li>
              6. Bingxin Xu, Xinyu Fan, Shuai Wang, and Zuyuan He, “Broadband electro-optic dual-comb interferometer with high-resolution,” CLEO 2019<\/em>, SF1L.5, San Jose (US), May. 2019, Oral<\/li>
              7. Shuangxiang Zhao, Qingwen Liu, Jiageng Chen, and Zuyuan He, “Sub-n\u03b5 static resolution fiber laser sensor,” CLEO 2019<\/em>, AF1K.2, San Jose (US), May. 2019, Oral<\/li>
              8. Shuai Wang, Zhaopeng Zhang, Xinyu Fan, Bin Wang, and Zuyuan He, “Calibration-free wavelength measurement with sub-femtometer resolution based on all-fiber Rayleigh speckles,” CLEO 2019<\/em>, San Jose (USA), May. 2019<\/li>
              9. Mengshi Wu, Xinyu Fan, and Zuyuan He, “Phase noise compensation for ultra-highly sensitive fiber-optic quasi-distributed acoustic sensing system,” CLEO 2019<\/em>, San Jose (USA), May. 2019<\/li>
              10. Dian Chen, Qingwen Liu, and Zuyuan He, “Distributed fiber-optic acoustic sensor with long sensing range over 100 km and sub-nano strain resolution,” 2019 IEEE International Instrumentation and Measurement Technology<\/em>, Auckland (NZ), May. 2019<\/li>
              11. Bingxin Xu, Xinyu Fan, Shuai Wang, and Zuyuan He, “Generalized linear optical sampling technique realized by using repetitive arbitrary waveform as sampling signal,” OECC 2019<\/em>, THG1-5, Fukuoka (JP), Jul. 2019, Oral<\/li>
              12. Weihong Shen, Jiangbing Du, Chang Wang, Lin Sun, Ke Xu, and Zuyuan He, “Single lane 90-Gbps optical interconnection at 2-micron waveband,” OECC 2019<\/em>, ThC3-6, Fukuoka (JP), Jul. 2019, Oral<\/li>
              13. Ying Shi, Lin Ma, Xiao Xu, Shoulin Jiang, and Zuyuan He, “Investigation of roughness induced scattering loss of polymer waveguides for optical printed circuit board application,” OECC 2019<\/em>, WE1-6, Fukuoka (JP), Jul. 2019, Oral<\/li>
              14. Biaozhi Li, Qingwen Liu, and Zuyuan He, “Spectrum-depth analysis based on optical coherence tomography,” OECC 2019<\/em>, WC3-1, Fukuoka (JP), Jul. 2019, Oral<\/li>
              15. Minghui Liu, Lin Ma, Ciyuan Qiu, and Zuyuan He, “Refractive index sensor based on few-mode silicon-nitride micro-ring resonator,” OECC 2019<\/em>, Fukuoka (JP), Jul. 2019<\/li>
              16. Maohuan Liu, Xinyu Fan, Shuai Wang, Bingxin Xu, and Zuyuan He, “Electro-optic dual-comb spectroscopy with 1 MHz resolution and 100 GHz bandwidth,” OECC 2019<\/em>, Fukuoka (JP), Jul. 2019<\/li>
              17. Yao Lu, Wenjia Zhang, Chenyu Liang and Zuyuan He, “Over 230 Gb\/s VCSEL-Array Injection Locked by Optical Frequency Comb,” Asia Communications and Photonics Conference (ACP)<\/em>, M4A.6, Chengdu (CN), Nov.2019<\/li>
              18. Chenyu Liang, Wenjia Zhang and Zuyuan He, “Electro-Optical Co-Design of Power-Efficient 100-Gbps\/\u03bb PAM-4 VCSEL Transmitter,” Asia Communications and Photonics Conference (ACP)<\/em>,  M4A. 261, Chengdu (CN), Nov.2019<\/li>
              19. Wenjia Zhang, Chenyu Liang, Yao Lu and Zuyuan He, “100 Gb\/s VCSEL-based optical interconnects enabled by multimode full-link optimization,” Photonics Asia<\/em>, 111820P, Hangzhou (CN), Nov. 2019<\/li><\/ol>\n\n\n\n\n\n\n\n

                2018<\/h2>\n\n\n\n
                1. Xiao Xu, Lin Ma and Zuyuan He, \u201c Two- and Three-Dimensional Polymer Directional Coupler for High-Density Optical Interconnects at 1550 nm,” OptoElectronics and Communications Conference (OECC)<\/em>, IEEE, Jul. 2018<\/li>
                2. Xiao Xu, Lin Ma and Zuyuan He, \u201c Directly Inscribed Mode (de)Multiplexer over C-band Based on Tapered Mode-Selective Coupler,\u201d OptoElectronics and Communications Conference (OECC)<\/em>, IEEE, Jul. 2018<\/li>
                3. Shoulin Jiang, Lin Ma, Xinyu Fan, Shuai Wang and Zuyuan He, \u201c Observation of Fiber Fuse Propagation Speed Oscillation Due to Inter-Mode Interference in Two-Mode Fibers,\u201d Optical Fiber Communication Conference<\/em>, Optical Society of America, Mar. 2018<\/li>
                4. Xiaoyu Yang, Lin Ma and Zuyuan He, \u201c Flexible and Wearable Optical Pressure Sensor Using 3D Polymer Directional Coupler,\u201d OptoElectronics and Communications Conference (OECC)<\/em>, IEEE, Jul. 2018<\/li>
                5. Yinping Liu, Lin Ma, Chen Yang, Weijun Tong and Zuyuan He, \u201c Graded-Index Seven-Core Fiber Optimized for High Density and Ultra-Wideband Parallel Transmission Application,\u201d Optical Fiber Communication Conference<\/em>, Optical Society of America, Mar. 2018<\/li>
                6. Shoulin Jiang, Lin Ma, Martin Nunez Velazquez, Zuyuan He and Jayanta Kumar Sahu, \u201c Optimized Design of 125-\u03bcm 6-core Fiber with Large Effective Area for Wideband Optical Transmission,\u201d Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR)<\/em>, Th2E.3, OSA, Jul. 2018<\/li>
                7. Chenyu Liang, Wenjia Zhang, Shun Yao, Qing Wang, Zuyuan He, \u201c Optical Equalization Using Spatial Phase Manipulation for VCSEL-MMF Based Links,\u201d 2018 Conference on Laser and Electro-Optics (CLEO 2018)<\/em>, STh4B.2, Optical Society of America, May. 2018<\/li>
                8. Chenyu Liang, Wenjia Zhang and Zuyuan He, \u201c Opto-Electrical Hybrid Equalization for VCSEL-MMF Based Links,\u201d IEEE Optical Interconnects (OI),<\/em> WC.3, IEEE, Jun. 2018<\/li>
                9. Shuangxiang Zhao, Qingwen Liu, Jiageng Chen, Zuyuan He, \u201c Pico-Strain Resolution Fiber Grating Sensor with Ultralow Probe Power and Tunable Sensitivity,\u201d 2018 Conference on Lasers and Electro-Optics (CLEO 2018)<\/em>, JW2A.173, Optical Society of America, May. 2018<\/li>
                10. Shuai Wang, Bingxin Xu, Xinyu Fan, and Zuyuan He, \u201c Generation of 250-MHz Electro-Optic Frequency Comb for Doppler-Limited Spectroscopy,\u201d 2018 Conference on Laser and Electro-Optics (CLEO 2018)<\/em>, STu4K.2, Optical Society of America, San Jose (US), May. 2018<\/li>
                11. Shuai Wang, Bingxin Xu, Xinyu Fan, and Zuyuan He, \u201c Super-resolution Electro-Optic Dual-Comb Spectroscopy,\u201d 2018 Conference on Laser and Electro-Optics (CLEO 2018)<\/em>, JTh2A.124, Optical Society of America, San Jose (US), May. 2018<\/li>
                12. Jiaxiong Li, Lulu Wang, Jiangbing Du, Zuyuan He, Chengkun Cai, Long Zhu, Andong Wang, and Jian Wang, \u201c C+ L Band Distributed Few-Mode Raman Amplification with Flattened Gain for Mode-Division-Multiplexed Optical Transmission over 75-km Few-Mode Fiber,\u201d 2018 Optical Fiber Communications Conference and Exposition (OFC 2018)<\/em>, W3D.2, Optical Society of America, San Diego (US), Mar. 2018<\/li>
                13. Long Zhu, Jiaxiong Li, Guoxuan Zhu, Lulu Wang, Chengkun Cai, Andong Wang, Shuhui Li, Ming Tang, Zuyuan He, Siyuan Yu, Cheng Du, Wenyong Luo, Jie Liu, Jiangbing Du, and Jian Wang, \u201c First Demonstration of Orbital Angular Momentum (OAM) Distributed Raman Amplifier over 18-km OAM Fiber with Data-Carrying OAM Multiplexing and Wavelength-Division Multiplexing,\u201d 2018 Optical Fiber Communications Conference and Exposition (OFC 2018)<\/em>, W4C.4, Optical Society of America, San Diego (US), Mar. 2018<\/li>
                14. Yuyao Zhai, Qingwen Liu, He Li, Dian Chen and Zuyuan He, \u201c Non-Mechanical Beam-Steer Lidar System Based on Swept-Laser Source,\u201d 2018 Conference on Lasers and Electro-Optics (CLEO 2018),<\/em> JTh2A.187, Optical Society of America, San Jose (US), May. 2018<\/li>
                15. Bingxin Xu, Xinyu Fan, Shuai Wang, and Zuyuan He, \u201c Simultaneous 40-channel DWDM-DPSK Signal Monitoring System Realized by Using Single-Channel Linear Optical Sampling Technique,\u201d 2018 Optical Fiber Communications Conference and Exposition (OFC 2018)<\/em>, M4G.3, Optical Society of America, San Diego (US), Mar. 2018<\/li>
                16. Yuanxiu Fu, Xinyu Fan, Bin Wang, and Zuyuan He, “Discriminative Measurement of Temperature and Strain Using Stimulated Brillouin Scattering and Guided Acoustic-Wave Brillouin Scattering ,” Asia Communications and Photonics Conference (ACP)<\/em>, Optical Society of America, Hangzhou (PRC), Aug. 2018<\/li>
                17. Ling Ge, Wenjia Zhang, Chenyu Liang and Zuyuan He, “Threshold based Pruned Retraining Volterra Equalization for PAM-4 100 Gbps VCSEL and MMf Based Optical Interconnects,” Asia Communications and Photonics Conference (ACP)<\/em>, Optical Society of America, Hangzhou (PRC), Aug. 2018<\/li>
                18. Jiangbing Du, Lin Sun, Guoyao Chen, Chang Wang, and Zuyuan He, “Probabilistically Shaped Signaling and Machine Learning Detection for Optical Interconnection,” Asia Communications and Photonics Conference (ACP)<\/em>, Optical Society of America, Hangzhou (PRC), Aug. 2018<\/li>
                19. Chang Wang, Guoyao Chen, Haoyang Wang, Lin Sun, Jiangbing Du, and Zuyuan He, Ke Xu, Bo Liu, “SVM Classification Comparison for QAM Modulated Optical Interconnection,” Asia Communications and Photonics Conference (ACP)<\/em>, Optical Society of America, Hangzhou (PRC), Aug. 2018<\/li>
                20. Chang Wang, Guoyao Chen, Haoyang Wang, Lin Sun, Jiangbing Du, and Zuyuan He, Ke Xu, Bo Liu, “Machine Learning Detection for DMT Modulated 112-Gbps VCSEL-MMF Optical Interconnection,” Asia Communications and Photonics Conference (ACP)<\/em>, Optical Society of America, Hangzhou (PRC), Aug. 2018<\/li>
                21. JiangChuan Wu, Lin Ma, Feng Tu, and Zuyuan He, “Investigation of Radiation Effect on Single-mode Fiber for Distributed Radiation Sensing Application,” Asia Communications and Photonics Conference (ACP),<\/em> Optical Society of America, Hangzhou (PRC), Aug. 2018<\/li>
                22. Dian Chen, Qingwen Liu, and Zuyuan He, “Fading-suppressed Distributed Fiber-optic Acoustic Sensor with 0.8-m Spatial Resolution and 246-p$epsilonsurd$Hz Strain Resolution,” 26th International Conference on Optical Fiber Sensors (OFS-26)<\/em>, TuE93, Optical Society of America, Lausanne (Switzerland), Sep. 2018<\/li>
                23. Yuyao Zhai, Qingwen Liu, He Li, Dian Chen and Zuyuan He, “Non-mechanical Beam-steer Lidar System Based on Swept-laser Source,” 26th International Conference on Optical Fiber Sensors (OFS-26)<\/em>, ThE48, Optical Society of America, Lausanne (Switzerland), Sep. 2018<\/li>
                24. Shuangxiang Zhao, Qingwen Liu, Jiageng Chen and Zuyuan He, “Pico-strain Resolution Multiplexed Fiber Grating Sensor Array Using One Mode-locked Laser,” 26th International Conference on Optical Fiber Sensors (OFS-26),<\/em> Optical Society of America, Lausanne (Switzerland), Nov. 2018<\/li>
                25. Gaoyu Dai, Xinyu Fan, and Zuyuan He, ” A Long-range Raman Distributed Temperature Sensor Based on Dual-source Scheme and RZ Simplex Coding,” Asia Communications and Photonics Conference (ACP),<\/em> Hangzhou (PRC), Oct. 2018<\/li>
                26. Zuyuan He, Qingwen Liu, Xinyu Fan, Dian Chen, Shuai Wang, Guangyao Yang, ” Fiber-optic distributed acoustic sensors (DAS) and applications in railway perimeter security,” Proc. SPIE. 10821, Advanced Sensor Systems and Applications VIII,<\/em> Guilin, China, Oct. 2018<\/li>
                27. Mengshi Wu, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Quasi-distributed Fiber-optic Acoustic Sensor using Ultra-weak Reflecting Point Array,” OFS,<\/em> Laussane, Switzerland, Sep. 2018<\/li>
                28. Bin Wang, Xinyu Fan, and Zuyuan He, ” Fast Dynamic Strain Measurement Using BOCDA Enhanced with Injection Locking Configuration,” OFS,<\/em> Laussane, Switzerland, Sep. 2018<\/li>
                29. Zhaopeng Zhang, Xinyu Fan, and Zuyuan He, ” Long-range and high-sensitivity distributed strain sensing based on PNC-OFDR,” OFS,<\/em> Laussane, Switzerland, Sep. 2018<\/li>
                30. Mengshi Wu, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” High performance distributed acoustic sensor based on ultra-weak FBG array,” 2018 IEEE International Instrumentation and Measurement Technology Conference (I2MTC),<\/em> Houston, US, May 2018<\/li>
                31. Zhaopeng Zhang, Xinyu Fan, and Zuyuan He, ” Hardware-adaptive algorithm for phase-noise-compensated optical frequency domain reflectometry,” Prof. APOS,<\/em> Matsue, Japan, May 2018<\/li>
                32. Gaoyu Dai, Xinyu Fan, and Zuyuan He, ” A cost-effective long-range Raman distributed temperature sensor based on dual-source configuration and RZ Simplex code,” Prof. APOS,<\/em> Matsue, Japan, May 2018<\/li>
                33. Bin Wang, Xinyu Fan, and Zuyuan He, ” Performance Enhancement for BOCDA Based on Convexity Extraction Algorithm,” Proc. CLEO2018,<\/em> San Jose, US, May 2018<\/li>
                34. Bin Wang, Xinyu Fan, Shuai Wang, and Zuyuan He, ” Dispersive Tunable Laser Spectroscopy with Ultrahigh Spectral Resolution,” Proc. CLEO2018,<\/em> San Jose, US, May 2018<\/li><\/ol>\n\n\n\n\n\n\n\n

                  2017<\/h2>\n\n\n\n
                  1. Jiaxiong Li, Jiangbing Du, Lin Ma, Ming-Jun Li, and Zuyuan He, ” Second-Order Few-Mode Distributed Raman Amplifier for Mode-Division Multiplexing Transmission,” Optical Fiber Communication Conference, <\/em>Optical Society of America, 2017<\/li>
                  2. Dian Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Distributed Fiber Optic Vibration Sensor with Enhanced Response Bandwidth and High Signal-to-Noise Ratio,” 25th International Conference on Optical Fiber Sensors,<\/em> International Society for Optics and Photonics, 2017<\/li>
                  3. Bin Wang, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Increasing Effective Sensing Points of Brillouin Optical Correlation Domain Analysis Using Four-Wave-Mixing Process,” 25th International Conference on Optical Fiber Sensors,<\/em> International Society for Optics and Photonics, 2017<\/li>
                  4. Guangyao Yang, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Increasing the Frequency Response of Direct-Detection Phase-Sensitive OTDR by Using Frequency Division Multiplexing,” 25th International Conference on Optical Fiber Sensors,<\/em> International Society for Optics and Photonics, 2017<\/li>
                  5. Jiageng Chen, Qingwen Liu, and Zuyuan He, ” Multiplexed Sub-Nano Resolution Quasi-Static Strain Sensor Based on Transient Response of Fabry-Perot Interferometers,” 25th International Conference on Optical Fiber Sensors,<\/em> International Society for Optics and Photonics, 2017<\/li>
                  6. Mengxin Wu, Qingwen Liu, Jiageng Chen, and Zuyuan He, ” Coherent Pound-Drever-Hall Technique for High Resolution Fiber Optic Strain Sensor at Very Low Light Power,” 25th International Conference on Optical Fiber Sensors,<\/em> International Society for Optics and Photonics, 2017<\/li>
                  7. Shuai Wang, Xinyu Fan, Qingwen Liu,  and Zuyuan He, ” Hybrid Dual-comb Interferometer Using Electro-optic Comb and Free-running Femtosecond Laser,” CLEO: Science and Innovations,<\/em> Optical Society of America, 2017<\/li>
                  8. Shoulin Jiang, Lin Ma, Shuai Wang, and Zuyuan He, ” Real-Time Observation of Microsecond-Order Periodic Velocity Change of Fiber Fuse using Heterodyne Detection,” CLEO: Science and Innovations, <\/em>Optical Society of America, 2017<\/li>
                  9. Jiageng Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” High Resolution Optical Fiber Sensor for Quasi-Static Strain Measurement by Strain-Temperature Discrimination,” CLEO: Applications and Technology, <\/em>Optical Society of America, 2017<\/li>
                  10. Xiao Xu, Lin Ma and Zuyuan He, \u201c Single-Mode Polymer Waveguide with Circular Core Operating at 1550 nm for High-Density and High-Speed Optical Interconnect Applications,” IEEE CPMT Symposium Japan (ICSJ)<\/em>, IEEE, 2017<\/li>
                  11. Huanhuan Zhang, Xiaoyu Yang, Lin Ma and Zuyuan He, \u201c Polymer Waveguide Jumper with 3D Over-Crossing Structure for High-Density On-Board Optical Interconnects Application,\u201d Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2017<\/li>
                  12. Fan Yang, Wenjia Zhang and Zuyuan He, \u201c A 48-Gb\/s Software Defined Optical Transceiver Using Multi-tone PAM\/CAP Modulation,\u201dIEEE Photonics Society Optical Interconnect Conference 2017 (OIC 2017)<\/em>, WB2, IEEE, Santa Fe (US), 2017<\/li>
                  13. Guoyao Chen, Lin Sun, Jiangbing Du, Zuyuan He, \u201c Machine Learning of Support Vector Machine Classification Utilizing Complete Binary Tree Structure for PAM-4\/8 Optical Interconnect Systems,\u201d IEEE Photonics Society Optical Interconnect Conference 2017 (OIC 2017)<\/em>, WB3, IEEE, Santa Fe (US), 2017<\/li>
                  14. Yue You, Wenjia Zhang, Lin Sun, Jiangbing Du, Zuyuan He, \u201c Amplitude and Time Skew Aware Equalization of 100-Gb\/s PAM4 Signals at The Transmitter Side for VCSEL-based Short Reach Optical Interconnects,\u201dOptoElectronics and Communications Conference (OECC 2017)<\/em>, IEEE, Singapore, 2017<\/li>
                  15. Yinping Liu, Lin Ma, Jiangbing Du, and Zuyuan He, \u201c Birefringence Variation Independent Fiber-Optic Current Sensor Based On Polarization Diversity And Real-Time SOP Measurement,\u201d OptoElectronics and Communications Conference (OECC 2017)<\/em>, IEEE, Singapore, 2017<\/li>
                  16. Lin Sun, Jiangbing Du, Guoyao Chen, Zuyuan He, Xia Chen, Graham T. Reed, \u201c Machine-Learning Detector Based on Support Vector Machine for 122-Gbp Multi-CAP Optical Communication System,\u201d OptoElectronics and Communications Conference (OECC 2017)<\/em>, Optical Society of America, Singapore, 2017<\/li>
                  17. Guangyao Yang, Xinyu Fan, Bin Wang and Zuyuan He, \u201c Brillouin Gain Spectrum Shape Manipulation for Enlarging Measurement Range of Dynamic Strain using Slope-assisted BOTDA,\u201d OptoElectronics and Communications Conference (OECC 2017)<\/em>, IEEE, Singapore, 2017<\/li>
                  18. Cheng Zhou, Yue-Guang Zhou, Chun-Fang Cao, Jiangbing Du, Qian Gong, Cheng Wang, \u201c Relative Intensity Noise of an InAs\/GaAs Quantum Dot Laser Epitaxially Grown on Germanium,\u201d The 9th International Conference on Information Optics and Photonics (CIOP 2017)<\/em>, Optical Society of America, Harbin (PRC), 2017<\/li>
                  19. Xiancheng Xia, Qingwen Liu, Dian Chen, Zuyuan He, \u201c Real-Time Data Processing Algorithm for Phase-Demodulation Distributed Fiber-optic Vibration Sensor with Signal-to-Noise Ratio over 30 dB,\u201d International Conference on Optical Communications and Networks 2017 (ICOCN 2017)<\/em>, IEEE, Wuzhen (PRC), 2017<\/li>
                  20. Yang Xu, Lin Ma, Shoulin Jiang, Zuyuan He, \u201c Effect of kGy Dose Level Gamma Radiation on Ge-doped FBGs and Femtosecond-Laser-Inscribed Pure-Silica-Core FBGs,\u201d International Conference on Optical Communications and Networks 2017 (ICOCN 2017)<\/em>, IEEE, Wuzhen (PRC), 2017<\/li>
                  21. Lifang Zheng, Jiangbing Du, Ke Xu, Xinru Wu, Hon Ki Tsang, Zuyuan He, \u201c High Speed DPSK Modulation up to 30 Gbps for Short Reach Optical Communications using A Silicon Microring Modulator,\u201d International Conference on Optical Communications and Networks 2017 (ICOCN 2017)<\/em>, IEEE, Wuzhen (PRC), 2017<\/li>
                  22. Cheng Zhou, Jiangbing Du, Zuyuan He, \u201c Model Investigation of Whispering Gallery Mode Microtube Resonators Fabricated by Laser Machining,\u201d International Conference on Optical Communications and Networks 2017 (ICOCN 2017)<\/em>, IEEE, Wuzhen (PRC), 2017<\/li>
                  23. Ke Su, Xinyu Fan, Qingwen Liu, Zuyuan He, \u201c Multiplexed Fiber-optic Methane Sensor System with Auxiliary Weak Fiber Bragg Gratings Based on OTDR Measurement,\u201d International Conference on Optical Communications and Networks 2017 (ICOCN 2017)<\/em>, IEEE, Wuzhen (PRC), 2017<\/li>
                  24. Ke Su, Xinyu Fan, Shuai Wang, Zuyuan He, \u201c High Precision Phase Sensitive Fiber-optic Gas Sensor Based on Dispersion Spectroscopy Using Frequency-Stabilized Optical Source,\u201d Asia Communications and Photonics Conference (ACP 2017)<\/em>, Optical Society of America, Guangzhou (PRC), 2017<\/li>
                  25. Wanqiang Zhang, Wenjia Zhang, Fan Yang, Zuyuan He, \u201c Polarization Independent Fiber-to-Waveguide Coupling by Hexagon Dots\/Holes Grating,\u201d Asia Communications and Photonics Conference (ACP 2017)<\/em>, Optical Society of America, Guangzhou (PRC), 2017<\/li>
                  26. Jiaxiong Li, Chengkun Cai, Jiangbing Du, Zuyuan He, Lulu Wang, Long Zhu, Andong Wang, Ming-Jun Li, and Jian Wang, \u201c First Demonstration of Second-Order Few-Mode Raman Amplified Ultra-Low-Noise Transmission of WDM\/MDM QPSK Signals over 100-km FMF,\u201d Asia Communications and Photonics Conference (ACP 2017)<\/em>, Optical Society of America, Guangzhou (PRC), 2017<\/li>
                  27. Jiangbing Du, Jiaxiong Li, Lin Ma, and Zuyuan He, \u201c High-Order few-Mode-Fiber Raman Amplifier for Low Noise Mode-Division -Multiplexed Optical Communication,\u201d IEEE International Conference on Optical Communications and Networks (ICOCN), <\/em>IEEE, Aug. 2017<\/li><\/ol>\n\n\n\n\n\n\n\n

                    2016<\/h2>\n\n\n\n
                    1. Qingwen Liu, Dian Chen, Xinyu Fan, and Zuyuan He, ” Optical Frequency Domain Reflectometry with Synthesized Frequency Sweeping Technique,” 2016 Conference on Lasers and Electro-Optics (CLEO), <\/em> IEEE, 2016<\/li>
                    2. Lin Ma, Shoulin Jiang, Jiangbing Du, Chen Yang, Weijun Tong, and Zuyuan He, ” Ring-assisted 7-LP-mode Fiber with Ultra-low Inter-mode Crosstalk.” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    3. Bin Wang, Xinyu Fan, Qingwen Liu, Jiangbing Du, and Zuyuan He, ” Spatial Resolution Enhancement in Optical Coherence Domain Reflectometry Using High-order FWM Process,” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    4. Chenyu Liang, Wenjia Zhang, Lin Sun, Jiangbing Du, Lin Ma, and Zuyuan He, ” 56-Gb\/s PAM-4 Transmission Over 5-km SSMF Using Photonic Digital-to-Analog Converter (PDAC) Based on Polarization Multiplexing,” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    5. Yue You, Jiangbing Du, Lin Sun, Chenyu Liang, Fan Yang, Wenjia Zhang, and Zuyuan He, ” Experimental Demonstration of 100-Gbps Optical PAM-4 Transmission over 4-km SSMF Using Wiener Filter,” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    6. Lin Sun, Jiangbing Du, and Zuyuan He, ” Machine Learning for Nonlinearity Mitigation in CAP Modulated Optical Interconnect System by using K-nearest Neighbour Algorithm,” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    7. Guangyao Yang, Xinyu Fan, Bing Wang, Qingwen Liu, and Zuyuan He, ” Dynamic Strain Sensing by using Phase-Gain Ratio in Slope-Assisted Brillouin Optical Time Domain Analysis,” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    8. Yinping Liu, Lin Ma, Jiangbing Du, Yemeng Tao, Wenjia Zhang, and Zuyuan He, ” Fiber Optic Current Sensor with High Sensitivity Based on Recirculating-loop Configuration Using Standard SMF,” Asia Communications and Photonics Conference,<\/em> Optical Society of America, 2016<\/li>
                    9. Dian Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Fading-noise-free Distributed Fiber-optic Vibration Sensor Based on Time-gated Digital OFDR,” Asia-Pacific Optical Sensors Conference,<\/em> Optical Society of America, 2016<\/li>
                    10. Jun Cao, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Research on FBG Packaging Technique for Ultrahigh Resolution Strain Sensing,” Asia-Pacific Optical Sensors Conference,<\/em> Optical Society of America, 2016<\/li>
                    11. Jin Chen, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Polarization Sensitive Optical Coherence Domain Reflectometry using Mode-locked Laser as Optical Source,” Asia-Pacific Optical Sensors Conference, <\/em>Optical Society of America, 2016<\/li>
                    12. Wang Shuai, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” Ultra-High-Resolution OTDR based on Linear Optical Sampling with Digital Dispersion Compensation,” Asia-Pacific Optical Sensors Conference,<\/em> Optical Society of America, 2016<\/li>
                    13. Bin Wang, Xinyu Fan, Qingwen Liu, Jiangbing Du, and Zuyuan He, ” Long-range Millimeter-resolution OFDR Based on 100 GHz Linear Frequency-sweep of Optical Source by Injection-locking Technique and Cascaded FWM Process,” Asia-Pacific Optical Sensors Conference<\/em>, Optical Society of America, 2016<\/li>
                    14. Jiageng Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Fiber Optic Bending Sensor Based on Resonance Splitting of \u03c0-Phase-shifted FBG,” Asia-Pacific Optical Sensors Conference,<\/em> Optical Society of America, 2016<\/li>
                    15. Tianjiao Li, Qingwen Liu, Dian Chen, Xinyu Fan, and Zuyuan He, ” Improving Spatial Resolution of Time-gated Digital Optical Frequency Domain Reflectometry using Diode Laser Sources,” Asia-Pacific Optical Sensors Conference,<\/em> Optical Society of America, 2016<\/li>
                    16. Bin Wang, Xinyu Fan, Guangyao Yang, Qingwen Liu, and Zuyuan He, ” Millimeter-Resolution Long Range Optical Frequency Domain Reflectometry for Health Monitoring of Access Network,” 42nd European Conference on Optical Communication (ECOC, Proceedings of<\/em>. VDE), 2016<\/li>
                    17. Bin Wang, Xinyu Fan, Shuai Wang, Guangyao Yang, Qingwen Liu, and Zuyuan He, ” Phase Noise Mitigation for Long-range OFDR using Ultrafast Frequency Sweep,” OptoElectronics and Communications Conference (OECC) held jointly with 2016 International Conference on Photonics in Switching (PS), 2016 21st, <\/em>IEEE, 2016<\/li>
                    18. Guangyao Yang, Xinyu Fan, Bin Wang, Qingwen Liu, and Zuyuan He, ” Polarization Fading Elimination in Phase Extracted OTDR for Distributed Fiber-Optic Vibration Sensing,” Proc. Optoelectronics and Communications Conference (OECC2016),<\/em> Niigata, Japan, Jul. 2016<\/li>
                    19. Jiageng Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” Simultaneous Measurement of Strain and Temperature Using pi-Phase-shifted Fiber Bragg Grating on Polarization Maintaining Fiber,” Proc. Optoelectronics and Communications Conference (OECC2016),<\/em> Niigata, Japan, Jul. 2016<\/li>
                    20. Shuai Wang, Xinyu Fan, Qingwen Liu, and Zuyuan He, ” High-Repetition-Rate Dynamic Polarization Mode Dispersion Characterization Based on Linear Optical Sampling,” CLEO2016,<\/em> San Jose, US, May. 2016<\/li>
                    21. Shoulin Jiang, Lin Ma, Xinyu Fan, Bin Wang, and Zuyuan He, ” Real-Time Monitoring of Fiber Fuse by Using Optical Frequency-Domain Reflectometry,” CLEO2016,<\/em> San Jose, US, May. 2016<\/li>
                    22. Jiageng Chen, Qingwen Liu, Xinyu Fan, and Zuyuan He, ” High Resolution Temperature and Strain Discrimination by Using \u03c0-phase-shifted Fiber Bragg Grating on Polarization Maintaining Fiber,” CLEO2016,<\/em> San Jose, US, May. 2016<\/li><\/ol>\n<\/div>","protected":false},"excerpt":{"rendered":"

                      2025 Mingjing Xu, Lin Ma, Feng\u66f4\u591a<\/i><\/a><\/p>\n","protected":false},"author":1,"featured_media":762,"parent":175,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/pages\/394"}],"collection":[{"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/comments?post=394"}],"version-history":[{"count":30,"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/pages\/394\/revisions"}],"predecessor-version":[{"id":1605,"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/pages\/394\/revisions\/1605"}],"up":[{"embeddable":true,"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/pages\/175"}],"wp:featuredmedia":[{"embeddable":true,"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/media\/762"}],"wp:attachment":[{"href":"http:\/\/cip.sjtu.edu.cn\/wordpress\/index.php\/wp-json\/wp\/v2\/media?parent=394"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}