张裕生，博士，副研究员，1990年出生于安徽合肥，2016年在中国计量大学获得硕士学位，2020年在浙江大学光电科学与工程学院获得光学工程博士学位。主要从事飞秒光纤激光及智能调控、孤子非线性动力学、超快传感及精密测量等研究，主持或参与国家级项目5项、省级项目2项、市级项目1项、产学研项目3项，获产学研合作行业奖项2项，授权发明专利4项。目前在Nature Reviews Methods Primers、Physical Reviews Letters、Laser & Photonics Reviews、Journal of Lightwave Technology、Nanophotonics、Optics Letters等国际期刊上发表SCI论文七十余篇，担任Nature子刊Scientific Reports的Editorial Board Member(编委)，并长期担任Optics & Laser Technology、Optics & Lasers in Engineering、Infrared Physics and Technology等期刊审稿人。

主要研究方向

l  飞秒光纤激光器参量调控

l   超快光纤激光瞬态孤子动力学表征

l   飞秒电光频率梳及精密测量应用

l  深度学习赋能的超快激光调控

l  新型微结构光纤超快传感

科研项目

1. 基于动态电光频率梳跨尺度波长合成的大尺寸绝对测距系统（2024-1-064），金华市科技计划项目工业重点项目，8万，2024.06－2027.06，主持。

2. 光纤激光器中多效应协同作用下的异构多色孤子分子研究（62305299），国家自然科学基金青年科学基金项目，30万，2024.01－2026.12，主持。

3. 低噪声高重频脉冲种子源（KJH2023034），产学研项目，39万，2023.01－2023.12，主持。

4. 光纤激光器中呼吸孤子分子全场动力学特性及机理研究（LQ23F050004），浙江省自然科学基金探索青年项目，10万，2023.01－2025.12，主持。

5. 高重频大能量中红外皮秒激光产生的关键技术研究及其超快过程测量（62035010），国家自然科学基金重点项目，305万元，2021.01－2025.12，参与。

发表论文

73. Y. Zhang, C. Tao, S. Luo, K. Y. Lau, J. Zheng, L. Huang, A. Zhang, L. Sheng, Q. Ling, Z. Guan, Y. Cui, D. Chen, J. Qiu, S. K. Turitsyn, and Z. Sun, "Ultra-fast optical time-domain transformation techniques," Nat. Rev. Methods Primers 5, 11 (2025). IF₂₀₂₄=56，浙师大首篇

72. W. Dai, Z. Li, S. Liu, Y. Zhang, A. Zhang, L. Huang, H. Fu, and Y. Cui, "Ultra-flexible electro-optical comb pulse generator," Opt. Laser Technol. 189, 113065 (2025).

71. L. Huang, C. Tao, Y. Zhang, Q. Ling, D. Chen, Z. Zheng, Q. Li, and H. Zhu, "Spectral encoding based on narrowband/broadband modulations of QBIC for computational spectral imaging," Opt. Express 33(9), 19166–19176 (2025).

70. J. Zheng, J. Xie, Y. Zhang, and X. Nie, "Soliton energy quantization effect in a thulium-doped fiber laser," Opt. Laser Technol. 188, 112965 (2025). 

69. J. Zhang, T. Lu, X. Yao, Y. Zhang, D. Mao, C. Zeng, X. Hao, L. Tang, Y. Cui, C. Kuang, and X. Liu, "Unveiling intracavity soliton evolution dynamics of a mode-locked fiber laser along the dispersion map," Photon. Res. 13(5), 1091 (2025). 

68. A. Xiao, X. Peng, Q. Ling, Y. Zhou, Y. Chen, W. Zhu, Y. Zhang, Z. Yu, S. Wan, H. Fu, and D. Chen, "Transient hydraulic pressure sensor based on single-hole-dual-core fiber Bragg grating," Opt. Express 33(8), 16646–16657 (2025).

67. A. Zhang, K. Dai, L. Huang, L. Sheng, Z. Liu, Y. Cui, X. Hao, and Y. Zhang, "Tunable All-Fiber Femtosecond Electro-Optic Optical Frequency Comb Operating at 1.5 μm," Photonics 12(4), 311 (2025). 

66.  H. Han, Q. Ling, S. Luo, J. Zhang, Y. He, R. Zhou, Y. Ding, D. Mao, A. Xiao, Y. Zhang, Z. Yu, Z. Guan, and D. Chen, "Ultrafast humidity interrogation based on agarose-coated Fiber Bragg Grating with time stretching method," IEEE Sensors Journal 25(7), 11148-11154 (2025).

65.  D. Mao, Z. Yuan, K. Dai, Y. Chen, H. Ma, Q. Ling, J. Zheng, Y. Zhang, D. Chen, Y. Cui, Z. Sun, and B. A. Malomed, "Temporal and spatiotemporal soliton molecules in ultrafast fibre lasers," Nanophotonics 14(6), 677–706 (2025).

64.  D. Mao, K. Dai, Y. Chen, H. Ma, Z. Yuan, Y. Zhang, Q. Ling, S. Luo, Z. Guan, D. Chen, and Y. Cui, "Synthesis of soliton supramolecular structures in ultrafast lasers based on Mach-Zehnder interference," Chaos, Solitons & Fractals 194, 116274 (2025).

63.  K. Dai, D. Mao, Y. Chen, Z. Yuan, H. Ma, Q. Ling, Y. Zhang, Z. Guan, D. Chen, and Y. Cui, "Harmonic dichromatic soliton molecules in synchronous mode-locked fiber lasers," Opt. Laser Technol. 184, 112527 (2025).

62.  Z. Yuan, K. Dai, D. Mao, H. Ma, Y. Chen, Q. Ling, Z. Guan, Y. Zhang, B. Zhang, and D. Chen, "Transition dynamics between soliton molecules in fiber lasers," Opt. Commun. 577, 131408 (2025).

61.  K. Zhang, Q. Ling, Y. Chen, S. Luo, Y. Zhang, Y. Zhou, G. Feng, J. Yang, Z. Yu, H. Chen, X. Jiang, Z. Guan, and D. Chen, "Seven-Core Fiber Composite Structures-Based Mach-Zehnder Interferometer for Bending and Temperature Measurement," Photonic Sens 15(1), 250131 (2025).

60.  X. Jiang, J. Xu, A. Xiao, Q. Ling, Q. Zhang, Y. Zhang, H. Chen, Z. Gu, Z. Yu, Z. Guan, and D. Chen, "Ring-core fiber Bragg grating and interferometer for simultaneous measurement of dual parameters," Infrared Physics & Technology 145, 105647 (2025).

59.  袁子川, 毛丁, 戴可, 陈跃, 麻慧慧, 张裕生, 陈达如, 崔玉栋, "耗散孤子时域动力学的实时测量," 光学学报 44(21), 2132001 (2024).

58.  K. Dai, D. Mao, Z. Yuan, H. Ma, Q. Ling, C. Tao, Y. Zhang, Z. Guan, D. Chen, and Y. Cui, "Spectral-temporal transition dynamics of dichromatic soliton molecules in synchronous mode-locked fiber lasers," Phys. Rev. A 110(5), 053506 (2024).

57.  Z. Yuan, Q. Ling, K. Dai, S. Luo, C. Tao, L. Huang, J. Dong, Z. Guan, Y. Zhang, D. Chen, and Y. Cui, "Intermediate state between steady and breathing solitons in fiber lasers," Infrared Phys. Techn. 143, 105622 (2024).

56.  H. Han, R. Zhou, S. Luo, Y. Ding, Z. Liao, Y. Zhang, and D. Chen, "Multi-mode hybridization in the MXene tetramer metasurface for ultra-broadband solar energy utilization," J. Opt. Soc. Am. B 41(10), 2401–2407 (2024).

55.  Y. He, J. Zhang, L. Wang, Q. Ling, C. Tao, Y. Zhang, Z. Yu, Z. Guan, and D. Chen, "Linear array three-core fiber-based Mach-Zehnder interferometer for curvature, torsion and temperature measurements," Opt. Fiber Technol. 88, 103959 (2024).

54.  K. Zhang, J. Zhang, A. Xiao, Y. Wang, Q. Ling, Y. Wang, Y. Zhang, Z. Yu, Z. Guan, and D. Chen, "Simultaneous detection of vector bending and temperature using dual-core fiber cascaded FBG structure," Measurement 241, 115760 (2025).

53.  J. Xu, Q. Ling, Y. Zhang, X. Jiang, Z. Guan, and D. Chen, "Wavelength-tunable mode-locked fiber laser based on a bending strain-controlled filter," Opt. Laser Technol. 181, 111696 (2025).

52.  Q. Ling, Z. Yuan, Y. Li, K. Zhang, J. Dong, L. Huang, S. Luo, C. Tao, Y. Zhang, Z. Guan, and D. Chen, "Real-Time Bending Sensing Based on a Strong-Coupled SCF Structure and Time-Stretch Technique," IEEE Sensors J. 24(19), 30155–30160 (2024).

51.  Y. Lu, C. Tao, Y. Zhang, S. Luo, Q. Ling, D. Chen, Z. Zheng, and H. Zhu, "Compressive Single-Pixel Spectral Imaging with Spatial-Spectral Modulation Optimization via Coherence Minimization," Opt. Commun. 571, 130948 (2024).

50.  R. Zhou, L. Zhang, Y. Ding, S. Luo, Q. Ling, Y. Chen, Y. Zhang, Y. Zhou, A. Akhtar, D. Zhao, M. Qiu, and D. Chen, "Lab-on-Fiber Fabry–Perot Interferometer Integrated With Functionalized Polymer for Carbon Dioxide Sensing," IEEE Trans. Instrum. Meas. 73, 9511108 (2024).

49.  S. Luo, Y. Ding, X. Zhu, Y. Li, Q. Ling, Z. Duan, Y. Zhang, H. Chen, Z. Yu, K. Du, L. Cai, H. Wang, Z. Guan, and D. Chen, "Lab-on-Fiber Humidity Sensor for Real-Time Respiratory Rate Monitoring," IEEE Sensors J. 24(13), 20663–20668 (2024).

48.  S. Luo, Y. Zhang, X. Yao, Q. Ling, C. Tao, Z. Guan, D. Chen, and Y. Cui, "Dichromatic soliton molecule modeled by two cubic–quintic Ginzburg–Landau equations coupled with a cross phase modulation term," Chaos, Solitons & Fractals 186, 115242 (2024).

47.  W. Luo, Y. Wang, Q. Ling, X. Zhu, X. Wang, Z. Gu, H. Chen, Z. Yu, Y. Zhang, H. Wang, and D. Chen, "Simultaneous bending and temperature measurement based on a superimposed fiber grating sensor," Infrared Phys. Techn. 140, 105371 (2024).

46.  Y. Li, Z. Yu, Q. Ling, Q. Zhang, H. Wu, J. Yang, Y. Zhang, H. Chen, B.-M. Mao, and D. Chen, "Temperature-insensitive vector curvature sensor based on four-core fiber offset structure," Infrared Phys. Techn. 140, 105368 (2024).

45.  Z. Yuan, S. Luo, K. Dai, C. Tao, Q. Ling, Z. Guan, Y. Zhang, D. Chen, and Y. Cui, "Transient breathing dynamics of dissipative soliton in an ultrafast laser," Opt. Laser Technol. 176, 111051 (2024).

44.  C. Jin, R. Jie, Y. Zhou, Y. Liu, C. Tao, S. Luo, Q. Ling, D. Chen, Y. Zhang, and Y. Cui, "Enhanced nonlinear optical properties for SWNT-PVA composite film by thermal treatment," Opt. Commun. 562, 130566 (2024).

43.  X. Han, Z. Huang, J. Yue, J. Li, X. Yan, Y. Xia, G. Zhang, H. Zhang, C. Xia, and Y. Zhang, "Optimizing ultrashort pulse in fiber laser based on artificial intelligence algorithm," Sci. Rep. 14(1), 7919 (2024).

42.  Y. Cui, Y. Zhang, L. Huang, A. Zhang, Z. Liu, C. Kuang, C. Tao, D. Chen, X. Liu, and B. A. Malomed, "Dichromatic “Breather Molecules” in a Mode-Locked Fiber Laser," Phys. Rev. Lett. 130(15), 153801 (2023).

41.  W. Long, R. Zhou, Z. Du, Q. Ling, Y. Zhang, D. Zhao, J. Shao, S. Luo, and D. Chen, "A Dual-Band Carbon Dioxide Sensor Based on Metal–TiO2–Metal Metasurface Covered by Functional Material," Photonics 9(11), 855 (2022).

40.  X. Peng, W. Luo, Y. Bai, B. Zhang, Y. Zhang, Q. Ling, H. Chen, S. Luo, Z. Guan, and D. Chen, "Study of wavelength-switchable watt-level blue external cavity diode laser for NO 2 S-DIAL," Laser Phys. 33(1), 015801 (2023).

39.  C. Jin, C. Tao, and Y. Zhang, "Numerical investigation on influence of the saturable absorber in Tm-doped fiber laser," Opt. Commun. 536, 129381 (2023).

38.  R. Zhou, S. Luo, J. Tian, Y. Zhang, C. Tao, Q. Ling, and D. Chen, "Switchable magnetic dipole assisted double QBICs in an asymmetry four-leaf clover-shaped Ge2Sb2Te5 metasurface," Results Phys. 52, 106901 (2023).

37.  X. Jiang, Q. Zhang, Q. Ling, Y. Li, J. Xu, Y. Zhang, H. Chen, Z. Gu, Z. Yu, Z. Guan, and D. Chen, "Integrated all-fiber sensor for simultaneous measurements of curvature and temperature," IEEE Sensors J. 24(6), 7844–7849 (2024).

36.  W. Luo, Y. Chen, A. Xiao, Q. Ling, B. Zhang, S. Luo, Z. Yu, Y. Zhang, Z. Guan, and D. Chen, "Three-core fiber-based temperature-insensitive twist sensor," Opt. Commun. 554, 130229 (2024).

35.  Y. Cui, X. Yao, X. Hao, Q. Yang, D. Chen, Y. Zhang, X. Liu, Z. Sun, and B. A. Malomed, "Dichromatic soliton‐molecule compounds in mode‐locked fiber lasers," Laser Photonics Rev. 18(6), 2300471 (2024).

34.  Z. Yuan, S. Luo, K. Dai, X. Yao, C. Tao, Q. Ling, Y. Zhang, Z. Guan, D. Chen, and Y. Cui, "Transient breathing dynamics during extinction of dissipative solitons in mode-locked fiber lasers," Frontiers of Optoelectronics 17(1), 2 (2024).

33.  Y. Chen, Q. Ling, Z. Yu, H. Chen, C. Tao, H. Chen, J. Shao, Y. Cui, Z. Guan, Y. Zhang, and D. Chen, "Experimental study on temperature-insensitive curvature sensor based on reflective all-fiber structure," Infrared Phys. Techn. 137, 105146 (2024).

32.  Y. Ding, Y. Chen, S. Luo, Q. Ling, Y. Zhang, Z. Yu, Z. Guan, and D. Chen, "All-fiber MZI hydrostatic pressure sensor," Opt. Laser Technol. 171, 110414 (2024).

31.  J. Zheng, D. Li, X. Cui, P. Liu, Q. Zhang, Z. Zhu, S. Yang, Y. Zhang, J. Sun, X. Chen, H. Yang, E. I. Kauppinen, and Z. Sun, "Temporal soliton dynamics of synchronised ultrafast fibre lasers," Opt. Express 31(20), 32373–32382 (2023).

30.  H. U. Y. Ang, M. Q. I. Engting, X. L. I. Upeng, Z. E. X. Ue, J. I. C. Heng, C. L. U. Henhao, D. O. H. An, Y. U. Z. Hang, and F. E. N. G. Z. Hao, "Soliton interaction in a MXene-based mode-locked fiber laser," Opt. Express 31(23), 38688–38698 (2023).

29.  Y. Chen, Q. Zhang, Y. Wang, Q. Ling, X. Jiang, Z. Yu, Z. Guan, D. Chen, and Y. Zhang, "Temperature and surrounding refractive index insensitive bending sensor based on a novel cascaded all-fiber structure," IEEE Sensors J. 23(18), 21321–21326 (2023).

28.  C. Jin, S. Jiang, C. Xu, D. Yang, P. Yang, C. Tao, S. Luo, Q. Ling, Y. Zhang, and Y. Zhou, "High-performance carbon-based nanomaterial composites for ultrafast lasers based on stretch processing," Opt. Commun. 549, 129908 (2023).

27.  K. Dai, Z. Yuan, Y. Zhang, C. Tao, and S. Luo, "Investigation on different type of pulses due to strong third order dispersion effect in mode-locked fiber lasers," Optik 286(March), 171044 (2023).

26.  W. Luo, B. Zhang, A. Xiao, Z. Duan, Q. Ling, Y. Zhang, Z. Yu, Z. Guan, and D. Chen, "All-Solid Single-Polarization Anti-Resonant Fiber Base on Anisotropic Glass," Photonics 10(4), 412 (2023).

25.  Y. Zhang, C. Jin, C. Tao, S. Luo, Q. Ling, Z. Guan, D. Chen, and Y. Cui, "Dissipative pure-quartic soliton resonance in an Er-doped fiber laser," Opt. Commun. 538(April), 129479 (2023).

24.  Y. S. Zhang, X. Q. Peng, B. Zhang, H. Zhang, D. R. Chen, and Y. D. Cui, "Real-time buildup dynamics of additive dissipative soliton in mode-locked fiber," Laser Phys. Lett. 20, 035103 (2023).

23.  Y. Zhang, K. Dai, B. Zhang, D. Chen, Z. Guan, and Y. Cui, "Investigations on pulse dynamics and offset spectral filtering in Er-doped Mamyshev fiber oscillator," Opt. Commun. 529(November 2022), 129103 (2023).

22.  Y. Zhang, K. Dai, and D. Chen, "Switchable property of dissipative soliton and dispersion-management soliton in fiber laser," Opt. Laser Technol. 158, 108790 (2023).

21.  C. Tao, H. Zhu, Y. Zhang, S. Luo, Q. Ling, B. Zhang, Z. Yu, X. Tao, D. Chen, Q. Li, and Z. Zheng, "Shortwave infrared single-pixel spectral imaging based on a GSST phase-change metasurface," Opt. Express 30(19), 33697–33707 (2022).

20.  Z. Du, Y. Zhou, S. Luo, Y. Zhang, J. Shao, Z. Guan, H. Yang, and D. Chen, "Highly birefringent hollow-core anti-resonant terahertz fiber with a thin strut microstructure," Opt. Express 30(3), 3783–3792 (2022).

19.  Y. Cui, Y. Zhang, L. Huang, and X. Liu, "Dual-state vector soliton in mode-locked fiber laser," Opt. Laser Technol. 157, 108674 (2023).

18.  X. Han, J. Yue, X. Hu, L. Feng, X. Yan, and Y. Zhang, "Ultrafast soliton delivered by miniaturized mode-locker with MoTe 2 and core-expanded fiber," Appl. Opt. 61(18), 5524–5531 (2022).

17.  Y. Zhang, S. Luo, B. Zhang, Y. Cui, Q. Ling, Z. Yu, and D. Chen, "Spectral-temporal transient dynamics of dissipative soliton molecules in mode-locking fiber lasers," Opt. Laser Technol. 153, 108286 (2022).

16.  Y. Zhang, L. Huang, B. Zhang, D. Chen, and Y. Cui, "Self-frequency shift in transmission of asymmetric pulse in optical medium," Symmetry 14(4), 834 (2022).

15.  L. Huang, Y. S. Zhang, and Y. D. Cui, "Optomechanical-organized multipulse dynamics in ultrafast fiber laser," Chin. Phys. B 30(11), 114203 (2021).

14.  Y. Cui, Y. Zhang, Y. Song, L. Huang, L. Tong, J. Qiu, and X. Liu, "XPM-induced vector asymmetrical soliton with spectral period doubling in mode-locked fiber laser," Laser Photonics Rev. 15(3), 2000216 (2021).

13.  Y. Zhang, Y. Cui, L. Huang, L. Tong, and X. Liu, "Full-field real-time characterization of creeping solitons dynamics in a mode-locked fiber laser," Opt. Lett. 45(22), 6246–6249 (2020).

12.  L. Huang, Y. Zhang, Y. Cui, J. Qiu, and X. Liu, "Microfiber-assisted GHz harmonic mode-locking in ultrafast fiber laser," Opt. Lett. 45(17), 4678–4681 (2020).

11.  Y. Zhang, L. Huang, Y. Cui, and X. Liu, "Unveiling external motion dynamics of solitons in passively mode-locked fiber lasers," Opt. Lett. 45(17), 4835–4838 (2020).

10.  Y. Zhang and Y. Zhang, "C + L band wavelength and bandwidth tunable fiber laser incorporating carbon nanotubes," Mod. Phys. Lett. B 34(30), 2050340 (2020).

9.  L. Huang, Y. Zhang, and X. Liu, "Dynamics of carbon nanotube-based mode- locking fiber lasers," Nanophotonics 9(9), 2731–2761 (2020).

8.  T. Wang, S. Shen, J. Liu, Y. Zhang, and Z. Han, "Experimental realization of perfect terahertz plasmonic absorbers using highly doped silicon substrate and CMOS-compatible techniques," Opt. Mater. Express 6(2), 523 (2016).

7.  Y. Zhang and Z. Han, "Experimental demonstration of spoof surface plasmon based THz antennas for huge electric field enhancement," Plasmonics 13(2), 531–535 (2018).

6.  Y. Zhang, P. Zhang, and Z. Han, "One-dimensional spoof surface plasmon structures for planar terahertz photonic integration," J. Light. Technol. 33(18), 3796–3800 (2015).

5.  T. Wang, Y. Zhang, Z. Hong, and Z. Han, "Analogue of electromagnetically induced transparency in integrated plasmonics with radiative and subradiant resonators," Opt. Express 22(18), 21529 (2014).

4.  Y. Zhang, Z. Hong, and Z. Han, "Spoof plasmon resonance with 1D periodic grooves for terahertz refractive index sensing," Opt. Commun. 340, 102–106 (2015).

3.  Y. Zhang and Z. Han, "Spoof surface plasmon based planar antennas for the realization of terahertz hotspots," Sci. Rep. 5, (2015).

2.  Z. Han, Y. Zhang, and S. I. Bozhevolnyi, "Spoof surface plasmon-based stripe antennas with extreme field enhancement in the terahertz regime," Opt. Lett. 40(11), 2533 (2015).

1.  Y. Zhang and Z. Han, "Efficient and broadband terahertz plasmonic absorbers using highly doped si as the plasmonic material," AIP Adv. 5(1), 017113 (2015).

激光感知技术及应用研究团队

开展包括激光雷达、激光光谱、微纳光学传感等激光感知技术及其在碳监测、医疗环保等领域应用的研究