洪伟毅

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个人简介


洪伟毅,男,物理电子学博士、教授、博士生导师、光电信息科学与工程系主任。本科毕业于华中科技大学物理系并保送至华中科技大学光电子科学与工程学院直接攻读博士研究生。2015年调入华南师范大学信息光电子科技学院。主要研究方向为非线性光学、光纤光学、强场非线性光学、光电检测系统等,在物理学与光学国际著名期刊发表学术论文一百余篇,主持相关纵横向科研项目十余项。目前承担本科专业课程《信息光学》、《工科数学基础》以及研究生课程《强场激光物理》的教学工作。


第一作者及通讯作者论文:

1. Manlin Liu, Fu Deng and Weiyi Hong*, “Parabolic-like motion of an optical pulse modulated by a temporal boundary in highly noninstantaneous Kerr media”, Physical Review A, 110, 043504 (2024).

2. Dan Li, Fu Deng, and Weiyi Hong*, “Direct generation of a narrowband EUV vortex with ring Pearcey–Gaussian-vortex-beam-driven harmonics”, Optics Letters 49, 5503 (2024).

3. Bo Huang, Meiqi Li, Aiping Luo, Weiyi Hong*, “Giant enhancement of positive and negative Goos-Hänchen shifts in two-dimensional grating waveguide structures supporting Fano resonances”, Physics Letters A 506, 129461 (2024).

4. Chunya Wang, Min Ouyang, and Weiyi Hong,* “Propagation of intense catastrophe beams in air”, Journal of the Optical Society of America B, 41, 373 (2024).

5. Songxin Huang, Ruihuan Wu, Dongmei Deng, and Weiyi Hong,“Rydberg-atom acceleration by circular Airy laser pulses”,Optics Letters 49, 762 (2024).

6. Yanru Chen, Zhifeng Tu, Hongcheng Hu, Junxi Zhang, Zien Feng, Ziyu Wang, Weiyi Hong*, and Dongmei Deng*, “Olver plasmon: an accelerating surface wave with various orders”, Optics Letters, 48, 2030 (2023).

7. Ru Li, Manlin Liu, Weiyi Hong*, and Aiping Luo, “Space–time coupling by a soliton self-mode conversion technique in optical fibers”. Optics Letters, 6408 (2023).

8. Xiaohao Zhang, Zhaozhao Li, Bo Li, Ruihuan Wu* and Weiyi Hong*, “Nonlinear dynamics of the dual-loop optoelectronic oscillator based on polarization multiplexing”, Chaos, Solitons and Fractals, 174, 113938 (2023).

9. Fengbei Shen, Zeyue Pang, Chunya Wang, and Weiyi Hong*, “High-order vortex harmonic generation with circular Airy vortex beams”, Journal of the Optical Society of America B, 40, 398 (2023)

10. Jiaying Chen, Weiyi Hong* and Aiping Luo, “Nonlinear dynamics of beam self-cleaning onLP11 mode in multimode fibers”, Optics Express, 30, 43453 (2022).

11. Meiqi Li, Qichang Ma, Aiping Luo and Weiyi Hong*, “Switchable strong coupling between dual hyperbolic phonon polaritons and photons in hybrid structure of metasurfaces and h-BN slab”, New Journal of Physics, 24, 113011 (2022).

12. Meiqi Li, Qichang Ma, Aiping Luo and Weiyi Hong*, “Multiple toroidal dipole symmetry-protected bound states in the continuum in all-dielectric metasurfaces”, Optics and Laser Technology, 154, 108252 (2022)

13. Zixuan Liao, Qichang Ma, Longxiao Wang, Zhi Yang, Meiqi Li, Fu Deng and Weiyi Hong, “Guiding-mode-assisted double-BICs in anall-dielectric metasurface”, Optics Express, 30, 24676-24688 (2022)

14. Zeyue Pang, Fengbei Shen and Weiyi Hong*, “Accessible Tuning of High Harmonics with Abruptly Auto-Focusing Beams”, Annlen Der Physik, 2100536 (2022)

15. Qilin Ma, Weiyi Hong*, and Lingling Shui*, “Polarization and incidence insensitive analogue of electromagnetically induced reflection metamaterial with high group delay”, Optics Express, 30, 3055 (2022)

16. Qichang Ma, Aiping Luo, and Weiyi Hong*, “Numerical study of photonic crystal fiber supporting 180 orbital angular momentum modes with high mode quality and flat dispersion”, Journal of Lightwave Technology, 39, 2971(2021)

17. Weitao He, Jianan Dai, Qichang Ma, Aiping Luo, and Weiyi Hong*, “Modal perspective on geometric parametric instability sidebands in graded-index multimode fibers”, Optics Express, 29, 11353-11360 (2021)

18. Pang Zeyue, Ze Wang, Fengbei Sheng, and Weiyi Hong*, “Phase-matching control of high-order harmonics with circular Airy-Gaussian beams”, Optics Express, 29, 29308-29316 (2021)

19. Weitao He, Ruihuan Wu, and Weiyi Hong* and Aiping Luo, Modal dynamics in multimode optical fibers: an attractor of high-order modes, Optics Express, 29, 32682-32690 (2021)

20. Yuanqiang Peng, Xiaolin Wu, Pingwei Liu, Kaiwen Yi, Dongmei Deng and Weiyi Hong*, “Abruptly autofocusing induced by the defocusing nonlinearity”, Applied Physics Express, 14, 102005 (2021)

21. Yuming Huang, Pingwei Liu, Kaiwen Yi, Ruifeng Chen, Zhenzhou Deng and Weiyi Hong*, “Dynamics of Pearcey-Gaussian pulses in a multimode fiber”, Optics Communications, 488, 126873 (2021)

22. Jianan Dai, Weitao He, Qichang Ma, Aiping Luo, and Weiyi Hong*, “Nearly Perfect Raman Self-Cleaning in Graded-Index Multimode Fibers Using Pearcey-Gaussian Pulses”, IEEE Access, 9, 46260-46264 (2021)

23. Pingwei Liu, Yuming Huang, Kaiwen Yi, Ruifeng Chen, Weiyi Hong*, Dynamics of non-uniform breathing solitons of pulses in multimode fibers, Optik, 247, 167972 (2021)

24. Qilin Ma, Weiyi Hong*, and Lingling Shui*, Structural Optimization of Single-Layer Graphene Metamaterial for Ultra-Broadband Terahertz Absorber, IEEE Photonics Journal, 13, 4600307 (2021)

25. Zhe Wang, Weiyi Hong*, Feng Wang, Qing Liao, “Tuning the orbital angular momentum of high harmonics by manipulating the collinear photon channels in two-color high-harmonic generation”, Physical Review Research, 2, 033482(2020)

26. Ruifeng Chen, Kaiwen Yi, Yuanqiang Peng, Baoying Zou, and Weiyi Hong*, “The supercontinuum generation with Pearcey-Gaussian pulses in an optical fiber”, Results in Physics, 103255 (2020)

27. Yuanqiang Peng, Ruifeng Chen, Xiaolin Wu, Qichang Ma and Weiyi Hong*, “Controllable abrupt focusing of a ring Pearcey-Gaussian (PeG) beam in nonlocally defocusing nonlinear media”, Journal of Optics, 22,095501 (2020)

28. Qichang Ma, Jianan Dai, Aiping Luo and Weiyi Hong*, “Numerical and Theoretical Study of Tunable Plasmonically Induced Transparency Effect Based on Bright–Dark Mode Coupling in Graphene Metasurface,” Nanomaterials, 10, 232 (2020)

29. Jianan Dai, Qichang Ma, Aiping Luo, Weiyi Hong*,“Nearly non-dispersive propagation of Pearcey–Gaussian pulses in optical fibers close to the zero dispersion point”, Optics Communications, 471, 125915 (2020)

30. Yunqi Li, Yuanqiang Peng, Weiyi Hong*, “Propagation of the Pearcey pulse with a linear chirp, ” Results in Physics, 16, 102932 (2020)

31. Kaiwen Yi, Ruifeng Chen, and Weiyi Hong*, “Dynamics of Pearcey pulses in highly noninstantaneous Kerr media,” Japanese Journal of Applied Physics 59, 032001 (2020)

32. 邹宝英, 戴佳男, 洪伟毅, “光纤中飞秒双脉冲束缚态产生超连续谱的研究”, 中国激光, 47, 0706003(2020)

33. Yuanqiang Peng, Xiaolin Wu, Yunqi Li, and Weiyi Hong*, “Funnel beams in the defocusing nonlinear media,” Japanese Journal of Applied Physics 58, 100904 (2019)

34. Yuanqiang Peng, Yunqi Li, Xiaolin Wu, and Weiyi Hong*, “Bottle Beams in Nonlocally Defocusing Nonlinear Media,” IEEE Photonics Journal 11, 6501009 (2019)

35. Ruihong Chen and Weiyi Hong*, “Dynamics of Airy beams in parity–time symmetric optical lattices”, Chinese Physics B 28, 054202 (2019)

36. Guo Liang, Weiyi Hong(并列一作), Tao Luo, Jing Wang, Yingbing Li, Qi Guo, Wei Hu, and Demetrios N. Christodoulides, Physical Review A 99, 063808 (2019)

37. Qichang Ma, Youwei Zhan and Weiyi Hong*, “Tunable Metamaterial with Gold and Graphene Split-Ring Resonators and Plasmonically Induced Transparency”, Nanomaterials, 9, 7(2019)

38. Weiyi Hong* and Manling Xu, “Long‑range interactions of double beams in party‑time symmetric lattices in the presence of nonlocal nonlinearities,” Applied Physics B, 124, 239 (2018)

39. Weiyi Hong, Bo Tian, Rui Li, Qi Guo, and Wei Hu, “Perturbation-iteration method for multi-peak solitons in nonlocal nonlinear media”, Journal of the Optical Society of America B, 35, 317 (2018)

40. Fu Deng and Weiyi Hong*. “Chirp-Induced Channel of an Airy Pulse in an Optical Fiber Close to Its Zero-Dispersion Point,” IEEE Photonics Journal 8, 7102874 (2016)

41. Fu Deng, Weiyi Hong* and Dongmei Deng, “Airy-type solitary wave in highly noninstantaneous Kerr media”, Optics Express 24, 15997 (2016)

42. Weiyi Hong, Qi Guo, and Lu Li, “Dynamics of optical pulses in highly noninstantaneous Kerr media”, Physical Review A 92, 0239803 (2015)

43. Weiyi Hong*, “Inverted-image frequency chirp induced by self-phase modulation in highly noninstantaneous medium”, Acta Physica Sinica, 64, 024214 (2015)

44. Meiyan Qin, Xiaosong Zhu, Qingbin Zhang, Weiyi Hong*, and Peixiang Lu, “Broadband large-ellipticity harmonic generation with polar molecules,” Optics Express, 19, 25084 (2011)

45. Yueming Zhou, Cheng Huang, Qing Liao, Weiyi Hong* and Peixiang Lu, “Control the revisit time of the electron wave packet”, Optics Letters, 36, 2758 (2011) (time cited:35)

46. Shaoyi Wang, Weiyi Hong*, Qingbin Zhang, Kunlong Liu, Xiaosong Zhu, and Peixiang Lu*, “Spatial coherence control of xuv supercontinuum generation by two-color laser field”, Optics Express, 19, 9986 (2011)

47. Shaoyi Wang, Qingbin Zhang, Weiyi Hong*, Xiaosong Zhu, and Peixiang Lu*, “Macroscopic control of quantum paths in high order harmonics by a weak second harmonic field”, Optics Express, 19, 25125 (2011)

48. Xiaosong Zhu, Qingbin Zhang, Weiyi Hong*, Peixiang Lu* and Zhizhan Xu, “Laser-polarization-dependent photoelectron angular distributions from polar molecules”, Optics Express, 19, 24198 (2011)

49. Cheng Huang, Yueming Zhou, Aihong Tong, Qing Liao, Weiyi Hong*, and Peixiang Lu*, “The effect of molecular alignment on correlated electron dynamics in nonsequential double ionization”, Optics Express 19, 5627 (2011) (time cited:36)

50. Weiyi Hong, Qingbin Zhang, Xiaosong Zhu and Peixiang Lu, “Intense isolated attosecond pulse generation in pre-excited medium”, Optics Express, 19, 4728(2011)

51. Weiyi Hong, Qingbin Zhang, Xiaosong Zhu and Peixiang Lu, “Isolated attosecond pulse generation with the stability against the carrier-envelope phase shift and with the high-beam quality from CO gas medium”, Optics Express, 19, 26174 (2011)

52. Weiyi Hong, Wei Pengfei, Qingbin Zhang, Shaoyi Wang, and Peixiang Lu, “Mid-infrared modulated polarization gating for ultra-broadband supercontinuum generation”, Optics Express 18, 11308 (2010) (time cited:29)

53. Weiyi Hong, Qingbin Zhang, Zhenyu Yang, and Peixiang Lu, “Electron dynamic control for the quantum path in the midinfrared regime using a weak near-infrared pulse”, Physical Review A, 80, 053407 (2009)

54. Weiyi Hong, Peixiang Lu, Qianguang Li, Qingbin Zhang, “Broadband water window supercontinuum generation with a tailored mid-IR pulse in neutral media”, Optics Letters, 34, 2102 (2009) (time cited:77)

55. Weiyi Hong, Peixiang Lu, Pengfei Lan, Qingbin Zhang, and Xinbing Wang, “Few-cycle attosecond pulses with stabilized-carrier-envelope phase in the presence of a strong terahertz field”, Optics Express, 17, 5139 (2009) (time cited: 44)

56. Weiyi Hong, Peixiang Lu, Pengfei Lan, Qiangguang Li, Qingbin Zhang, Zhenyu Yang, and Xinbing Wang, “Method to generate directly a broadband isolated attosecond pulse with stable pulse duration and high signal-to-noise ratio,” Physical Review A, 78, 063407 (2008) (time cited: 22)

57. Weiyi Hong, Peixiang Lu, Pengfei Lan, Zhenyu Yang, Yuhua Li and Qing Liao, “Broadband xuv supercontinuum generation via controlling quantum paths by a low-frequency field,” Physical Review A, 77, 033410 (2008) (time cited:48)

58. Weiyi Hong, Peixiang Lu, Wei Cao, Pengfei Lan, and Xinlin Wang, Journal of Physics B, 40, 2321 (2008) (time cited:49)

59. Weiyi Hong, Yuhua Li, Peixiang Lu, Pengfei Lan, Qingbin Zhang and Xinbing Wang, Journal of the Optical Society of America B, 25, 1684 (2008) (time cited:40)

60. Weiyi Hong, Wei Cao, Pengfei Lang, Peixiang Lu, “The effects of static electric field on the time-frequency characteristics of high-order harmonic generation”, ACTA PHYSICA SINICA, 56, 6623 (2007)

61. Weiyi Hong, Zhenyu Yang, Pengfei Lan, and Peixiang Lu, Zhenyu Yang, “Direct generation of isolated sub-50 attosecond pulse via controlling quantum paths by a low frequency field”, ACTA PHYSICA SINICA, 57, 5853 (2008)

62. Weiyi Hong, Zhenyu Yang, Pengfei Lan, Qingbin Zhang, Qianguang Li,and Peixiang Lu, “Generating isolated broadband attosecond pulses with stable pulse duration in a non-colinear polarized two-color field”, ACTA PHYSICA SINICA, 58, 4914 (2009)