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科学研究

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科学研究

魏泽勇了解详情

  • 职称:副教授
  • 联系方式:weizeyong@tongji.edu.cn
  • 办公室:机械北馆(光学馆)302
  • 导师情况:博士生导师

主要从事人工微结构材料的光场调控机理、计算电磁学和光场仿真软件研究。发展了本征模式展开降维计算理论,将光栅、超表面、频率选择表面、光子晶体等周期结构的光场仿真计算效率提高了1-2个数量级;发展了傅里叶空间/实空间混合计算的微纳器件光学系统仿真方法,突破了含微纳器件的混合尺度光学系统全波仿真计算瓶颈;提出了基于层间耦合的宽频带电磁透明方法,开展了型号应用研究。在Advanced Optical Materials,Applied Physics Letters,Optics Letters等杂志上发表SCI论文60余篇,申请国家发明专利20多项,他引2400余次,申请并获得了三项国家自然科学基金项目,作为项目负责人承担了多项国防科研项目。

  • 个人经历
  • 研究方向
  • 开授课程
  • 科研项目
  • 学术成果
  • 荣誉及奖励

工作经历

2016年01月–至今,同济大学物理科学与工程学院,副教授

2013年04月–2015年12月,同济大学物理科学与工程学院,讲师

2011年03月- 2013年03月,同济大学电子与信息工程学院,博士后

教育经历

2006年09月- 2011年03月,同济大学物理系,凝聚态物理博士

2000年09月- 2004年06月,同济大学物理系,物理学学士

人工微结构材料光场调控研究。具体包含三个方面:人工微结构光场调控机理、高效率电磁场仿真方法和自主可控的光场仿真和设计工业基础软件。

本科生课程:微纳光学、计算电磁学、光学电磁理论、计算物理

国家自然科学基金委项目三项,多项国防科研项目。

论文:

1. Ma Z, Dong S, Dun X, Wei Z, Wang Z, Cheng X. Reconfigurable Metalens with Phase-Change Switching between Beam Acceleration and Rotation for 3D Depth Imaging. Micromachines (Basel). 2022;13(4).

2. Luo X, Hu Y, Ou X, Li X, Lai J, Liu N, et al. Metasurface-enabled on-chip multiplexed diffractive neural networks in the visible. Light, science & applications. 2022;11(1):158.

3. Li H, Wei Z, Zhang J, Cheng X, Wang Z. Anomalous light scattering from multilayer coatings with nodular defects. Opt Express. 2022;30(4):5414-22.

4. Dou L, Xie L, Wei Z, Wang Z, Cheng X. On-Chip Optical Beam Manipulation with an Electrically Tunable Lithium-Niobate-on-Insulator Metasurface. Micromachines (Basel). 2022;13(3).

5. Cheng C, Ou K, Yang H, Wan H, Wei Z, Wang Z, et al. Electric-Driven Polarization Meta-Optics for Tunable Edge-Enhanced Images. Micromachines (Basel). 2022;13(4).

6. Xie L, Zhang J, Zhang Z, Ma B, Li T, Wang Z, et al. Rectangular multilayer dielectric gratings with broadband high diffraction efficiency and enhanced laser damage resistance. Opt Express. 2021;29(2):2669-78.

7. Liu J, Zhao J, Deng X, Yang S, Xue C, Wu Y, et al. Hybrid application of laser-focused atomic deposition and extreme ultraviolet interference lithography methods for manufacturing of self-traceable nanogratings. Nanotechnology. 2021;32(17):175301.

8. Liu F, Jiao H, Zhang J, Yin B, Liu H, Ji Y, et al. High performance ZnS antireflection sub-wavelength structures with HfO2 protective film for infrared optical windows. Opt Express. 2021;29(20):31058-67.

9. Li T, Chen A, Fan L, Zheng M, Wang J, Lu G, et al. Photonic-dispersion neural networks for inverse scattering problems. Light, science & applications. 2021;10(1):154.

10. Jiao H, Niu X, Zhang J, Ma B, Cheng X, Wang Z. Hf1-xSixO2 Nanocomposite Coatings Prepared by Ion-Assisted Co-Evaporation Process for Low-Loss and High-LIDT Optics. Materials (Basel). 2021;14(10).

11. Hu Y, Teat SJ, Gong W, Zhou Z, Jin Y, Chen H, et al. Single crystals of mechanically entwined helical covalent polymers. Nature Chemistry. 2021;13(7):660-5.

12. Deng X, Dai G, Liu J, Hu X, Bergmann D, Zhao J, et al. A new type of nanoscale reference grating manufactured by combined laser-focused atomic deposition and x-ray interference lithography and its use for calibrating a scanning electron microscope. Ultramicroscopy. 2021;226.

13. Zhou J, Cheng X, Zhang J, Jiao H, Zhang Z, Li H, et al. Demonstration of a dual-channel two-dimensional reflection grating filter. Appl Opt. 2020;59(5):A181-A6.

14. Zhang Z, Liang H, He T, Wang Z, Cheng X. Photonic spin Hall effect based on broadband high-efficiency reflective metasurfaces. Appl Opt. 2020;59(5):A63-A8.

15. Zhang J, Fang S, Kozhevnikov IV, Cheng X, Wang Z. Interference suppression of light backscattering through oblique deposition of high-reflectivity multilayers: a theoretical analysis. Optics Express. 2020;28(21).

16. Xie L, Liu H, Zhao J, Jiao H, Zhang J, Wang Z, et al. Influence of dry etching on the properties of SiO2 and HfO2 single layers. Appl Opt. 2020;59(5):A128-A34.

17. Muller EA, Gray TP, Zhou Z, Cheng X, Khatib O, Bechtel HA, et al. Vibrational exciton nanoimaging of phases and domains in porphyrin nanocrystals. Proc Natl Acad Sci U S A. 2020;117(13):7030-7.

18. Jiao H, Niu X, Zhang X, Zhang J, Cheng X, Wang Z. Design and fabrication of a superior nonpolarizing long-wavelength pass edge filter applied in laser beam combining technology. Applied Optics. 2020;59(5).

19. He T, Zhang J, Jiao H, Wang Z, Cheng X. Near-infrared broadband Si:H/SiO2 multilayer gratings with high tolerance to fabrication errors. Nanotechnology. 2020;31(31):315203.

20. Zhang J, Wu H, Kozhevnikov IV, Shi S, Cheng X, Wang Z. Interference suppression of light backscattering through oblique deposition of a layered reflecting coating: bi-layer on a substrate. Opt Express. 2019;27(11):15262-82.

21. Wang K, Ma B, Han J, Jiao H, Cheng X, Wang Z. Morphological and damage growth characteristics of shell-type damage of fused silica optics induced by ultraviolet laser pulses. Appl Opt. 2019;58(32):8882-8.

22. Cheng X, Dong S, Zhi S, Paschel S, Balasa I, Ristau D, et al. Waterproof coatings for high-power laser cavities. Light, science & applications. 2019;8:12.

23. Zhang L, Wei Z, Zhang J, Liu H, Ji Y, Schroder S, et al. Quantitative assessment and suppression of defect-induced scattering in low-loss mirrors. Optics letters. 2018;43(24):6025-8.

24. Zhang L, Ma B, Wang K, Jiao H, Cheng X, Wang Z. Morphology and growth properties of nano- and submicrometer-scale initial damage sites under 355 nm wavelength pulsed laser irradiation. Appl Opt. 2018;57(12):3166-71.

25. Zhang L, Cheng X, Zhang J, Jiao H, Bao G, Ding T, et al. Characterization of grain sizes and roughness of HfO<sub>2</sub> single layers. Appl Opt. 2017;56(4):C24-C9.

26. Zhang J, Wu H, Jiao H, Schroder S, Trost M, Wang Z, et al. Reducing light scattering in high-reflection coatings through destructive interference at fully correlated interfaces. Optics letters. 2017;42(23):5046-9.

27. Zhang J, Bu X, Ma B, Jiao H, Cheng X, Wang Z. Research on the mechanical stability of high laser resistant coatings on lithium triborate crystal. Appl Opt. 2017;56(4):C117-C22.

28. Zhang J, Bu X, Jiao H, Ma B, Cheng X, Wang Z. Laser damage properties of broadband low-dispersion mirrors in sub-nanosecond laser pulse. Opt Express. 2017;25(1):305-12.

29. Song Z, Cheng X, Ma H, Zhang J, Ma B, Jiao H, et al. Influence of coating thickness on laser-induced damage characteristics of anti-reflection coatings irradiated by 1064  nm nanosecond laser pulses. Applied Optics. 2017;56(4).

30. Ma H, Cheng X, Zhang J, Jiao H, Ma B, Tang Y, et al. Effect of boundary continuity on nanosecond laser damage of nodular defects in high-reflection coatings. Optics letters. 2017;42(3):478-81.

31. Ma B, Wang K, Lu M, Zhang L, Zhang L, Zhang J, et al. Transient features and growth behavior of artificial cracks during the initial damage period. Appl Opt. 2017;56(4):C123-C30.

32. Liu F, Dong S, Zhang J, Jiao H, Ma B, Wang Z, et al. Interface and material engineering for zigzag slab lasers. Scientific Reports. 2017;7(1).

33. Cheng X, He T, Zhang J, Jiao H, Ma B, Wang Z. Contribution of angle-dependent light penetration to electric-field enhancement at nodules in optical coatings. Optics letters. 2017;42(11):2086-9.

34. Ma B, Zhang L, Lu M, Wang K, Jiao H, Zhang J, et al. Properties of defect-induced multiple pulse laser damage of transmission components. Appl Opt. 2016;55(25):7078-85.

35. Ma B, Lu M, Wang K, Zhang L, Jiao H, Cheng X, et al. Depth position recognition-related laser-induced damage test method based on initial transient damage features. Opt Express. 2016;24(16):17698-710.

36. Jiao H, He Y, Bao G, Zhang J, Ma B, Cheng X, et al. Fabrication of broadband absorbing coatings for amplified spontaneous emission suppression. Applied Optics. 2016;56(4).

37. Deng X, Namboodiri P, Li K, Wang X, Stan G, Myers AF, et al. Silicon epitaxy on H-terminated Si (100) surfaces at 250 degrees C. Appl Surf Sci. 2016;378:301-7.

38. Cheng X, Song Z, Zhang J, Jiao H, Ma B, Sui Z, et al. Optimal coating solution for a compact resonating cavity working at Brewster angle. Opt Express. 2016;24(21):24313-20.

39. Zhang J, Cao C, Tikhonravov AV, Trubetskov MK, Gorokh A, Cheng X, et al. Advantages and challenges of optical coating production with indirect monochromatic monitoring. Appl Opt. 2015;54(11):3433-9.

40. Ma B, Lu M, Zhan G, Wang K, Cheng X, Wang Z. Effect of etching morphology of artificial defect on laser-induced damage properties under 355 nm laser irradiation. Appl Opt. 2015;54(11):3365-71.

41. Cheng X, Tuniyazi A, Wei Z, Zhang J, Ding T, Jiao H, et al. Physical insight toward electric field enhancement at nodular defects in optical coatings. Optics Express. 2015;23(7).

42. Schroder S, Unglaub D, Trost M, Cheng X, Zhang J, Duparre A. Spectral angle resolved scattering of thin film coatings. Appl Opt. 2014;53(4):A35-41.

43. Liu H, Jiang Y, Wang L, Leng J, Sun P, Zhuang K, et al. Correlation between properties of HfO2 films and preparing parameters by ion beam sputtering deposition. Appl Opt. 2014;53(4):A405-11.

44. Jiao H, Cheng X, Bao G, Han J, Zhang J, Wang Z, et al. Study of HfO2/SiO2 dichroic laser mirrors with refractive index inhomogeneity. Appl Opt. 2014;53(4):A56-61.

45. Jiang Y, Liu H, Wang L, Liu D, Jiang C, Cheng X, et al. Optical and interfacial layer properties of SiO2 films deposited on different substrates. Appl Opt. 2014;53(4):A83-7.

46. Gallais L, Cheng X, WangZ. Influence of nodular defects on the laser damage resistance of optical coatings in the femtosecond regime. Optics letters. 2014;39(6):1545-8.

47. Cheng X, Tuniyazi A, Zhang J, Ding T, Jiao H, Ma B, et al. Nanosecond laser-induced damage of nodular defects in dielectric multilayer mirrors [invited]. Appl Opt. 2014;53(4):A62-9.

48. Zhang J, Xie Y, Cheng X, Jiao H, Wang Z. Thin-film thickness-modulated designs for optical minus filter. Appl Opt. 2013;52(23):5788-93.

49. Zhang J, Tikhonravov AV, Trubetskov MK, Liu Y, Cheng X, Wang Z. Design and fabrication of ultra-steep notch filters. Opt Express. 2013;21(18):21523-9.

50. Wang Z, Bao G, Jiao H, Ma B, Zhang J, Ding T, et al. Interfacial damage in a Ta2O5/SiO2 double cavity filter irradiated by 1064 nm nanosecond laser pulses. Opt Express. 2013;21(25):30623-32.

51. Ma B, Zhang Y, Ma H, Jiao H, Cheng X, Wang Z. Influence of incidence angle and polarization state on the damage site characteristics of fused silica. Applied Optics. 2013;53(4).

52. Cheng X, Jiao H, Lu J, Ma B, Wang Z. Nanosecond pulsed laser damage characteristics of HfO_2/SiO_2 high reflection coatings irradiated from crystal-film interface. Optics Express. 2013;21(12).

53. Wang XD, Shen ZX, Zhang JL, Jiao HF, Cheng XB, Chen LY, et al. Submicrometer aluminum spheres' adhesion to planar silicon substrates. Langmuir. 2010;26(17):13903-6.

54. Wang X-D, Shen Z-X, Sang T, Cheng X-B, Li M-F, Chen L-Y, et al. Preparation of spherical silica particles by St?ber process with high concentration of tetra-ethyl-orthosilicate. Journal of Colloid and Interface Science. 2010;341(1):23-9.

55. Wang X-D, Shen Z-X, Zhang J-L, Jiao H-F, Cheng X-B, Ye X-W, et al. Contact between Submicrometer Silica Spheres. Langmuir. 2009;26(8):5583-6.

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