COSMOS

 

Centers for Complex Optical Fields and Meta-optical Structures

  1. Wan C, Chong A, Zhan Q. Optical spatiotemporal vorticeseLight, 3(1): 1-13 (2023).

  2. Zhu J, Zhang H, Hu Z, et al. Coherence modulation for anti-turbulence deep learning recognition of vortex beamApplied Physics Letters, 123(9) (2023).

  3. Gu L, Cao Q, Zhan Q. Spatiotemporal optical vortex wavepackets with phase singularities embedded in multiple domainsChinese Optics Letters, 21(8): 080003 (2023).
  4. Shen Y, Zhan Q, Wright L G, et al. Roadmap on spatiotemporal light fieldsJournal of Optics, 25(9): 093001 (2023).
  5. Lu X, Wang Z, Zhao C, et al. Four-dimensional experimental characterization of partially coherent light using incoherent modal decompositionNanophotonics, 12(17): 3463-3470 (2023).

  6. Fan H, Tai Y, Li H, et al. Epicycle-model-guided arbitrary shaped customization of structured light, Applied Physics Letters, 122(23) (2023).

  7. Qiu W, Zhou L, Wang Y, et al. Strong coupling of multiple optical interface modes with ultra-narrow linewidth in one-dimensional topological photonic heterostructures, Optics Express, 31(12): 20457-20470 (2023).

  8. Jiang Y, Li H, Zhang X, et al. Promoting spintronic terahertz radiation via Tamm plasmon coupling, Photonics Research, 11(6): 1057-1066 (2023).

  9. Tang X, Kuai Y, Fan Z, et al. Achiral and Chiral Optical Force Within Topological Optical Lattices Generated with Plasmonic Metasurfaces and Tunable Incident Beam, Physical Review Applied, 19(5): 054016 (2023).

  10. Yao J, Jiang X, Li X, et al. Cascaded mode converter for generating high-order Poincaré sphere beams of multiple different ordersApplied Physics Letters, 122(18) (2023).

  11. Cao Q, Chen Z, Zhang C, et al. Propagation of transverse photonic orbital angular momentum through few-mode fiberAdvanced Photonics, 5(3): 036002-036002 (2023).

  12. Zeng Y, Yu Y, Wu P, et al. Generation of a linear array of focal spots with prescribed characteristic using the radiation pattern from a tapered line source antenna, Optics Communications, 534: 129329 (2023).

  13. Zhang J, Zhang S, Jiang X, et al. Numerical study on flat dispersion in a single-layer Si3N4 coupled-waveguides with four zero-dispersion wavelengths for supercontinuum generationOptics & Laser Technology, 160: 109061 (2023).

  14. Cheng J, Wan C, Zhan Q. Generalized spiral transformation for high-resolution sorting of vortex modes, Optics Letters, 48(7): 1762-1765 (2023).

  15. Yang D, Hu H, Gao H, et al. Mie Scattering Nanointerferometry for the Reconstruction of Tightly Focused Vector Fields by Polarization DecompositionPhotonics, 10(5): 496 (2023).

  16. Fei W, Jiang X, Dai L, et al. Polarization-selective narrow band dual-toroidal-dipole resonances in a symmetry-broken dielectric tetramer metamaterialOptics Express, 31(6): 9608-9619 (2023).

  17. Li X, Gu B, Rui G, et al. High-order harmonic generation in uniformly distributed topological edge states, Journal of Optics, 25(4): 045002 (2023) .

  18. Zeng Y, Yu Y, Zhan Q. Creation of optical chains with prescribed characteristicsJournal of Optics, 25(3): 035501 (2023).

  19. Hu H, Chen Z, Cao Q, et al. Wavelength-Tunable and OAM-Switchable Ultrafast Fiber Laser Enabled by Intracavity Polarization Control, IEEE Photonics Journal, 15(1): 1-4 (2023).

  20. Chen J, Kuai S, Chen G, et al. Dynamical Modulation of Transverse Orbital Angular Momentum in Highly Confined Spatiotemporal Optical Vortex, Photonics, 10(2): 148 (2023).

  21. Lei X, Du L, Yuan X, Zhan Q, Metastability of photonic spin meron lattices in the presence of perturbed spin-orbit coupling, Optics Express, 31(2): 2225-2233 (2023).

  22. Zhang J, Zhang S, Jiang X, et al, Numerical study on flat dispersion in a single-layer Si3N4 coupled-waveguides with four zero-dispersion wavelengths for supercontinuum generation, Optics & Laser Technology, 160: 109061 (2023).

  23. Zhuang T, Hu H, Zhan Q, Generation of tunable superchiral spot in metal-insulator-metal waveguide, Chinese Optics Letters, 21(1): 013601 (2023).

  24. Wan C, Cao Q, Chen J, Chong A, Zhan Q, Toroidal vortex of light, Nature Photonics (Cover Paper)16, 519–522 (2022).

  25. Wan C, Shen Y, Chong A, Zhan Q. Scalar optical hopfions, eLight, 2(1): 1-7 (2022).

  26. Wan C, Chen J, Chong A, Zhan Q, Photonic orbital angular momentum with controllable orientation, National Science Review, 9(7): nwab149 (2022).

  27. Cao Q, Zheng P, Zhan Q, Vectorial sculpturing of spatiotemporal wavepackets, APL Photonics, 7(9): 096102 (2022).

  28. Lei X, Wang R, Liu L, et al, Multifunctional on-chip directional coupler for spectral and polarimetric routing of Bloch surface wave, Nanophotonics, 11(21): 4627-4636 (2022).

  29. Chen J, Zheng P, Zhan Q, Towards optical toroidal wavepackets through tight focusing of the cylindrical vector two dimensional spatiotemporal optical vortex, Optics Express, 30(26): 46666-46679 (2022).

  30. Lv J, Ma X, Liu X, et al, Self-starting high-order mode oscillation fiber laser, Optics Express, 30(24): 43644-43654 (2022).

  31. Rui G, Ji Y, Gu B, et al, Nanoscale chiral imaging under complex optical field excitation with controllable oriented chiral dipole moment, Optics Express, 30(23): 42696-42711 (2022).

  32. Rui G, Yang B, Ying X, et al, Numerical modeling for the characteristics study of a focusing ultrashort spatiotemporal optical vortex,Optics Express, 30(21): 37314-37322 (2022).

  33. Meng X, Hu Y, Wan C, Zhan Q, Optical vortex fields with an arbitrary orbital angular momentum orientation, Optics Letters, 47(17): 4568-4571 (2022).

  34. Hu H, Gan Q, Zhan Q, Achieving maximum scattering circular dichroism through the excitation of anapole states within chiral Mie nanospheres. Physical Review B, 105(24): 245412 (2022).

  35. Chen J, Yu L, Wan C, et al, Spin–Orbit Coupling within Tightly Focused Circularly Polarized Spatiotemporal Vortex Wavepacket, ACS Photonics, 9(3): 793-799 (2022).

  36. Lv J, Lin J, Ma X, et al, Generation of cylindrical vector beams in a linear cavity mode-locked fiber laser based on nonlinear multimode interference. Optics Express, 30(11): 18320-18329 (2022).

  37. Yu Y, Huang H, Lin S, et al, A 3D controllable diffraction‐limited spot array generated by means of a spaced‐dipole array, IET Optoelectronics, 16(2): 47-55 (2022).

  38. Gao H, Hu H, Zhan Q, et al, Efficient Switchable Common Path Interferometer for Transmission Matrix Characterization of Scattering Medium, IEEE Photonics Journal (2022).

  39. 胡海峰, 詹其文,基于光子轨道角动量的手性测量方法 , 量子电子学报(特邀综述), 39 (2): 272-285 (2022).

  40. Cheng J, Wan C, Zhan Q, High-resolution optical orbital angular momentum sorter based on Archimedean spiral mapping, Optics Express, 30(10): 16330-16339 (2022).

  41. Meng X, Wan C, Zhan Q, Transversely oriented cylindrically polarized optical fields, Optics Express, 30(9): 14897-14909 (2022).

  42. Wang J, Zhang J, Wang A, et al, Tunable Brillouin-erbium fiber laser producing multiwavelength cylindrical vector beamsOptics & Laser Technology, 149: 107852 (2022).

  43. Lv J, Li H, Zhang Y, et al, Tailoring the spectrum and spatial mode of Yb-doped random fiber laserOptics Express, 30(5): 8345-8355 (2022).

  44. Forbes A, Ramachandran S, Zhan Q, Photonic angular momentum: progress and perspectivesNanophotonics, 11(4): 625-631 (2022).

  45. Dai C, Dong Z, Zhang Y, et al, Mode-locked fiber laser generating cylindrical vector beams based on an all-polarization-maintaining fiber structureOptics & Laser Technology, 146: 107592 (2022).

  46. Cao Q, Chen J, Lu K, et al, Non-spreading Bessel spatiotemporal optical vorticesScience Bulletin, 67(2): 133-140 (2022).

  47. Lv J, Dai C, Li H, et al, High-efficiency mode-locked fiber laser with a switchable oscillating transverse mode in an all few-mode fiber linear cavity, Optics Express, 30(2): 1641-1650 (2022).

  48. Chen J, Wan C, Chong A, et al, Experimental demonstration of cylindrical vector spatiotemporal optical vortexNanophotonics, 10(18): 4489-4495 (2022).

  49. Chen J, Wan C, Zhan Q, Engineering photonic angular momentum with structured light: a reviewAdvanced Photonics, 3(6): 064001 (2021).

  50. Cao Q, Chen J, Lu K, et al, Sculpturing spatiotemporal wavepackets with chirped pulsesPhotonics Research, 9(11): 2261-2264 (2021).

  51. Yu Y, Huang H, Lin S, et al, Generation of rotating optical focal field employing turnstile antennaOptics Communications, 498: 127205 (2021).

  52. Chen J, Wang Y, Wan C, et al, Compact vectorial optical field generator based on a 10-megapixel resolution liquid crystal spatial light modulatorOptics Communications, 495: 127112 (2021).

  53. Mirando A, Zang Y, Zhan Q, et al, Generation of spatiotemporal optical vortices with partial temporal coherenceOptics Express, 29(19): 30426-30435 (2021).

  54. Hu H, Zhan Q, Enhanced Chiral Mie Scattering by a Dielectric Sphere within a Superchiral Light FieldPhysics, 3(3): 747-756 (2021).

  55. Rada J, Hu H, Zhou L, et al, Multiple concentric rainbows induced by microscale concave interfaces for reflective displays, Applied Materials Today, 24: 101146 (2021).

  56. Su L, Meng X, Xiao Y, et al, Generation of transversely oriented optical polarization Möbius strips, Optics Express, 29(16): 25535-25542 (2021).

  57. Chen J, Chen G, Zhan Q, Self-aligned fiber-based dual-beam source for STED nanolithographyChinese Optics Letters, 19(7): 072201 (2021).

  58. Dong Z, Zhang Y, Li H, et al, All-fiber cylindrical vector beams laser based on the principle of mode superpositionOptics & Laser Technology, 139: 106965 (2021).

  59. Ying X, Rui G, Zou S, et al, Synthesis of multiple longitudinal polarization vortex structures and its application in sorting chiral nanoparticles, Optics Express, 29(12): 19001-19014 (2021).

  60. Wang J, Zhang J, Wang A, et al, Cascaded stimulated Brillouin scattering erbium-doped fiber laser generating orbital angular momentum beams at tunable wavelengthsOptics Express, 29(12): 18408-18419 (2021).

  61. Ding C, Rui G, Gu B, et al, Phase-change metasurface with tunable and switchable circular dichroismOptics Letters, 46(10): 2525-2528 (2021).

  62. Zhang T, Hu H, Chen J, et al, Tunable mode-locked fiber laser to generate ultrashort cylindrical vector beamsLaser Physics Letters, 18(3): 035102 (2021).

  63. Linghu S, Gu Z, Lu J, et al, Plasmon-driven nanowire actuators for on-chip manipulationNature communications, 12(1): 1-8 (2021).

  64. Zhan Q, Entanglement goes classically high-dimensionalLight, Science & Applications, 10  (2021).

  65. MS Alam, Q Zhan and C Zhao, Additive opto-thermomechanical nanoprinting and nanorepairing under ambient conditions, Nano Letters 20 (7), 5057-5064 (2020)

  66. Scholes S, Sroor H, Ait-Ameur K, Zhan Q and Forbes A, General design principle for structured light lasers, Opt. Express 28, 35006-35017 (2020)

  67. Lv J, Li H, Zhang Y, et al, Few-mode random fiber laser with a switchable oscillating spatial mode, Opt. Express 28, 38973-38982 (2020)

  68. Bai, C., Chen, J., Zhang, Y., Zhang, D.,& Zhan, QDynamic tailoring of an optical skyrmion lattice in surface plasmon polaritonsOptics Express 28, 10320-10328 (2020).

  69. Zhang, Y., Chen, J., Bai, C., Zhang, D., & Zhan, Q.Dynamical generation of multiple focal spot pairs with controllable position and polarization.Optics Express 28, 26706-26716 (2020).

  70. Chong, A., Wan, C., Chen, J., & Zhan, QGeneration of spatiotemporal optical vortices with controllable transverse orbital angular momentumNature Photonics 14, 350-354 (2020).

  71. Wan, C., Chen, J., Chong, A., & Zhan, QGeneration of ultrafast spatiotemporal wave packet embedded with time-varying orbital angular momentumScience Bulletin 65, 1334-1336 (2020).

  72. Bai, C., Chen, J., Zhang, Y., Kanwal, S., Zhang, D.,& Zhan, QShift of the surface plasmon polariton interference pattern in symmetrical arc slit structures and its application to Rayleigh metallic particle trappingOptics Express 28, 21210-21219 (2020).

  73. Chen, J., Wan, C., Chong, A., & Zhan, QSubwavelength focusing of a spatio-temporal wave packet with transverse orbital angular momentumOptics Express 28, 18472-18478 (2020).

  74. 万辰皓., Andy, Chong., &詹其文光子飓风——具有光子横向轨道角动量的时空涡旋物理 49, 254-256 (2020).

  75. Ma, X., Wang, A., Ma, F., Wu, S., & Zhan, Q. Depth of field extension in laser speckle contrast imaging. IEEE Access, 8, 1-1 (2020).

  76. Yao, E., Hu, J., Liu, W., Xie, W., & Zhan, Q. Enhanced interaction of Tamm plasmon polaritons based on graphene/DBR/silver structure. International Conference on Optical Instruments and Technology 2019: Micro/Nano Photonics: Materials and Devices (2020).

  77. Dong, Z., Zhang, Y., Li, H., Tao, R., Gu, C., Yao, P., Zhan, Q., &Xu, L. Generation of stable orbital angular momentum beams with an all-polarization-maintaining fiber structureOptics Express 28, 9988-9995 (2020).

  78. Xiang, Y., Tang, X., Min, C., Rui, G., & D, Zhang. Optical Trapping with Focused Surface WavesAnnalen Der Physik 532, 1900497 (2020).

  79. Zhang, Y., Tao, R., Li, H., Fang, W., Dong, Z., Dai, C., Xu, L., Gu, C., Chen, W., Zhu, Y., Zhan, Q., & Yao, P. Stable generation of cylindrical vector beams with an all-fiber laser using polarization-maintaining and ring-core fibersOptics Express 28, 18351-18359 (2020).

  80. Zhang, Y., Li, H., Tao, R., Fang, W., Dong, Z., Dai, C., Xu, L., Gu, C., Chen, W., Zhu, Y., Zhan, Q., &Yao, P. Stable generation of orbital angular momentum mode with an all-fiber laserApplied Physics Express 13, 042002 (2020).

  81. Hu, J., Xie, W., Chen, J., Zhou, L., Liu, W., Li, D., & Zhan, Q.Strong hyperbolic-magnetic polaritons coupling in an hBN/Ag-grating heterostructureOptics Express 28, 22095-22104 (2020).

  82. Rui, G., Ding, C., Gu, B., Gan, X., Zhan, Q., & Cui, Y. Symmetric Ge2Sb2Te5 based metamaterial absorber induced dynamic wide-gamut structural colorJournal of Optics 22, 085003 (2020).

  83. Dai, C., Zhang, Y., Tao, R., Lin, J., Yao, P., Xu, L., Gu, C., & Zhan, Q.The nonlinear propagation of cylindrical vector beams in an optical fiber. Optics & Laser Technology 130, 106336 (2020).

  84. Chen, J., Zhang, D., &Zhan, Q. Effective iterative method for accurate amplitude modulation in complex optical field generationOptical Engineering 58, 082404 (2019).

  85. Zhan, Q. From cylindrical to complex and beyond: guest editorial.Advances in Optics and Photonics 11, ED7-ED9 (2019).

  86. Hu, H., Gan, Q., &Zhan, Q. Generation of a nondiffracting superchiral optical needle for circular dichroism imaging of sparse subdiffraction objects.Physical Review Letters 122, 223901 (2019).

  87. Wan, C., &Zhan, Q. Generation of exotic optical polarization Möbius strips.Optics Express, 27, 11516-11524 (2019).

  88. Rui, G., Hu, H., Singer, M., Jen, Y., Zhan, Q., & Gan, X. Symmetric MetaAbsorberInduced SuperchiralityAdvanced Optical Materials 7, 1901038 (2019).

  89. 陈建, &詹其文矢量光场与激光焦场定制光学学报39,37-50 (2019).

  90. Hu, J., Liu, W., Xie, W., Zhang, W., Yao, E., Zhang, Y., & Zhan, Q. Strong coupling of optical interface modes in a 1D topological photonic crystal heterostructure/Ag hybrid system.Optics Letters 44, 5642-5645 (2019).

  91. Tao, R., Li, H., Zhang, Y., Yao, P., Xu, L., Gu, C., & Zhan, Q. All-fiber mode-locked laser emitting broadband-spectrum cylindrical vector modeOptics & Laser Technology 123, 105945 (2019).

  92. Gong, L., Zhang, X., Gu, B., Zhu, Z., Rui, G., He, J., Zhan, Q., & Cui, Y. Optical pulling forces on Rayleigh particles using ambient optical nonlinearityNanophotonics 8, 1117-1124 (2019).

  93. Li, H., Zhang, Y., Dong, Z., Lv, J., Gu, C., Yao, P., Xu, L., Zhang, R., Su, J., Chen, W., Zhu, Y., & Zhan, Q. A High-Efficiency All-Fiber Laser Operated in High-Order Mode using Ring-Core Yb-Doped Fiber.Annalen Der Physik 531, 1900079 (2019).

  94. Ibarra-Borja, Z., Sevilla-Gutiérrez, C., Ramírez-Alarcón, R., Zhan, Q., Cruz-Ramirez, H., &U'Ren, A. Direct observation of OAM correlations from spatially entangled bi-photon statesOptics Express 27, 25228-25240 (2019).

  95. Li, H., Yan, K., Dong, Z., Tao, R., Gu, C., Yao, P., Xu, L., Zhang, R., Su, J., & Zhan, Q. Multi-wavelength oscillating and transverse mode switching in an all few-mode fiber laser based on polarization manipulation. Optics & Laser Technology 117, 110-113 (2019).

  96. Li, H., Yan, K., Zhang, Y.,Dong, Z., Gu, C., Yao, P., Xu, L., Zhang, R., Su, J., Chen, W., Zhu, Y., & Zhan, Q. Passively Q-switching cylindrical vector beam fiber laser operating in high-order modeJournal of Optics 21, 095502 (2019).

  97. Chen, H., Rui, G., Zhou, S., & Zhan, Q. Miniature polarimeter with curved hyperbolic metamaterialsJournal of Optics 21, 085104 (2019).

  98. Yu, Y., Huang, H., Zeng, Y., & Zhan, Q. Optimization-free two-dimensional focal spot array generated by the use of radiation pattern from a planar antenna arrayJournal of Nanophotonics 13, 036004 (2019).

  99. Hu, J., Yao, E., Xie, W., Liu, W., Li, D., Lu, Y., & Zhan, Q. Strong longitudinal coupling of Tamm plasmon polaritons in graphene/DBR/Ag hybrid structureOptics Express 27, 18642-18652 (2019).

  100. Yu, Y., Huang, H., Lin, S., Chen, M., & Zhan, Q. Generation of optical needles and bright spot arrays through reversing the radiation pattern of collinear antenna arrayJournal of Optics 21, 075602 (2019).

  101. Wang, J., Chen, R., Yao, J., Ming, H., Wang, A., & Zhan, Q. Random Distributed Feedback Fiber Laser Generating Cylindrical Vector BeamsPhysical Review Applied 11, 044051 (2019).

  102. Zhang, Y., Li, H., Dai, C., Tao, R., Xu, L., Gu, C., Chen, W., Zhu, Y., Zhan, Q., & Yao, P. An all-fiber laser oscillating directly at a single TE01 mode with ring-core fibersApplied Physics Express 12, 052001 (2019).

  103. Zhou, S., Rui, G., Chen, H., & Zhan, Q. Diffraction-limited optical focusing with arbitrarily oriented magnetic fieldJournal of Optics 21, 045610 (2019).

  104. Yu, Y., Chen, M., Lin, S., & Zhan, Q. Engineering arrays of diffraction-limited hollow tubes and doughnut spots with prescribed distributions.Europhysics Letters 125, 24001 (2019).

  105. Rui, G., Li, Y., Zhou, S., WangY., Gu, B., Cui, Y., & Zhan, Q. Optically induced rotation of Rayleigh particles by arbitrary photonic spinPhotonics Research 7, 69-79 (2019).

  106. Chen, H., Zhou, S., Rui, G., & Zhan, Q. Magnified photonic spin-Hall effect with curved hyperbolic metamaterialsJournal of Applied Physics 124, 233104 (2018).

  107. Chen, J., Wan, C., & Zhan, Q. Vectorial optical fields: recent advances and future prospectsScience Bulletin 63, 54-74 (2018).

  108. Zhang, Y., Li, H., Dai, C., Xu, L., & Zhan, Q. All-fiber high-order mode laser using a metal-clad transverse mode filterOptics Express 26, 29679-29686 (2018).

  109. Li, H., Yan, K., Zhang, Y., Gu, C., Yao, P., Xu, L., Zhang, R., Su, J., Chen, W., & Zhu, Y. Low-threshold high-efficiency all-fiber laser generating cylindrical vector beams operated in LP11 mode throughout the entire cavityApplied Physics Express 11, 122502 (2018).

  110. Wan, C., Yu, Y., & Zhan, Q. Diffraction-limited near-spherical focal spot with controllable arbitrary polarization using single objective lens. Optics Express 26, 27109-27117 (2018).


Project


2024.01 to 2026.12

   National Natural Science Foundation of China, Youth Program,62305220,Multivariate High-Resolution Coherent Diffraction Imaging Based on Single Exposure 。

        Project Leader:Yuanyuan Liu

2024.01 to 2026.12

   National Natural Science Foundation of China, Youth Program,12304427,Dynamic Control of Graphene Plasmon Skyrmions 。

        Project Leader:Ni Zhang

2024.01 to 2026.12

   National Natural Science Foundation of China, Youth Program,12304367,Characterization of the Generation and Topological Evolution of Optical Phase Hopfions。

        Project Leader:Jinzhan Zhong

2023.04 to 2026.03

   Science and Technology Commission of Shanghai Municipality, Yangfan Special Program,,23YF1429300,Characterization and Applications of Novel Spatiotemporal Optical Fields in Coherent Diffraction。

        Project Leader:Yuanyuan Liu

2023.04 to 2026.03

   Science and Technology Commission of Shanghai Municipality, Yangfan Special Program,23YF1415800,Topological Regulation of Vector-Structured Optical Fields and Applications。

        Project Leader:Jinzhan Zhong

2023.01 to 2026.12

   National Natural Science Foundation of China, General Program,12274299,Highly Localized Properties of Vector Spatiotemporal Vortices.

        Project Leader:Jian Chen

2023.01 to 2026.12

   National Natural Science Foundation of China, General Program,62275158,Three-Dimensional Photonic Monolithic Integration Method Based on Tunable Vertical Micro-Ring Couplers。

        Project Leader:Xiaogang Chen

2023.01 to 2025.12

   National Natural Science Foundation of China, Youth Program,12204309,Optical Spin Topology Modulated by Bloch Surface Modes and Applications。

        Project Leader:Xinrui Lei

2022.06 to 2025.05

   Science and Technology Commission of Shanghai Municipality, Morning Star Program,22QA1406600,Spin-Orbit Coupling Mechanism and Its Applications in Vector Spatiotemporal Vortices。

        Project Leader:Jian Chen

2022.04 to 2025.03

   Science and Technology Commission of Shanghai Municipality, Yangfan Special Program,22YF1415200, Manipulation and Application of Optical Spin Topological Structures。

        Project Leader:Xinrui Lei

2022.04 to 2025.03

   Shanghai Natural Science Foundation,22ZR1443100,Fiber Speckle Sensing Technology Based on Multi-Mode Fiber Mode Field Manipulation。

        Project Leader:Haifeng Hu

2022.01 to 2024.12

   National Natural Science Foundation of China, Youth Program,12104309,Manipulation, Detection, and Interaction of Transverse Orbital Angular Momentum of Photons。

        Project Leader:Qian Cao

2021.05 to 2024.04  

   Science and Technology Commission of Shanghai Municipality, Yangfan Special Program,21YF1431500,Generation, Generation, Characterization, and Properties of Novel Spatiotemporal Optical Fields。

        Project Leader:Qian Cao

2021.01 to 2024.12    

    National Natural Science Foundation of China, Key Project of Major Research Program,92050202,High-order Characterization of Ultra-Diffractive Limit Vector Optical Field and Its Applications。

        Project Leader:Qiwen Zhan

2021.01 to 2024.12

   National Natural Science Foundation of China, General Program,62075132,Broadband Generation and High-Speed Control of Vortex State Dominant Modes in Few-Mode Optical Fibers。

        Project Leader:Haifeng Hu

2021.01 to 2023.12  

   National Natural Science Foundation of China, Youth Program,62005168,Localized Surface Plasmon-Enhanced Terahertz Quantum Well Detector。

        Project Leader:Liangliang Gu

2020.07 to 2023.06  

   Shanghai Natural Science Foundation, General Program,20ZR1437600,Mechanisms and Characterization Methods for Strongly Focused Spatiotemporal Vortex Light Field Manipulation。

        Project Leader:Jian Chen

2020.01 to 2021.06  

   China Postdoctoral Science Foundation, General Program,238691,High-Power Invariant Transmission of Complex Optical Fields。

        Project Leader:Hend Sroor

2019.04 to 2022.03         

  Science and Technology Commission of Shanghai Municipality, Local University Capacity Building Program,19060502500,Manipulation of Optical Focusing Fields at the Micro and Nano Scale and Their Applications in Laser Processing。

       Project Leader:Qiwen Zhan

2019.01 to 2021.12  

  National Natural Science Foundation of China, Youth Program,61805142,High-Precision Manipulation and Nanoscale Comprehensive Characterization of Strongly Focused Vector Optical Fields。

       Project Leader: Jian Chen


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