洪佩龙
姓 名 | 洪佩龙 |
性 别 | 男 |
出生年月 | 1986年12月 |
学 位 | 博士 |
职 称 | 副教授 |
E-mail | p.l.hong@aqnu.edu.cn |
个人简介:洪佩龙,博士,副教授。2009年6月获南开大学学士学位;2014年6月获南开大学博士学位。2016年1月-2017年1月在荷兰University of Twente从事博士后研究,合作导师为美国物理学会会士、光学学会会士Willem Vos教授。2023年7月起,在安庆师范大学从事教学科研工作。
主讲课程:大学物理、应用光学、大学物理实验等
研究方向:从事光场调控及其应用研究,熟练掌握光场干涉、成像、光与物质相互作用等方面的调控技术及原理,致力于复杂光物理过程的机制研究,助力微纳光源、光学成像、光操控等先进光子学技术的发展。
研究项目:主持国家自然科学基金青年项目、四川省自然科学基金面上项目、弱光非线性教育部重点实验室开放课题等。
代表性论文:
[1] Y. Liang, L. Tan, N. Liu, K. Chen, H. Liang, H. Wu, B. Luo, F. Lu, H. Chen, B. Zou, P. Hong, Tunable autofocusing and enhanced trapping forces with Circular Pearcey Airy Beams. Phys. Rev. Appl. 19, 014016 (2023).
[2] M. Yao, D. Ning, J. Huang, X. Lin, S. Huang, T. Lin, B. Zou, P. Hong, Y. Liang, Tunable surface plasmonic resonance and infrared self-focusing propagation in CuxS nanoparticle suspensions, Opt. Commn. 527, 128992 (2023).
[3] L. Tan, N. Liu, F. Lu, D. Liu, B. Yu, Y. Li, Y. Chu, K. Chen, P. Hong, and Y. Liang, Quantitative characterization of autofocusing and trapping of multi-Airy vortex beams. Phys. Rev. A, 107, 043501(2023).
[4] J. Huang, X. Lin, S. Huang, M. Yao, D. Ning, K. Chen, P. Zhang, P. Hong, Y. Liang, Quantitative analysis of the synthetic food colorants with optical nonlinearity, Optik 276, 170653 (2023).
[5] P. Hong,L. Xu, C. Ying, and M. Rahmani, Flatband mode in photonic moiré superlattice for boosting second harmonic generation with monolayer Van der Waals crystals, Opt. Lett. 47, 2326 (2022). [入选Editor's Pick、2022年5月Top-Downloads论文、2023年5月most-downloaded Editors’ Picks papers、2023年6月Popular Papers from AOP and Optics Letters]
[6] P. Hong,L. Xu,and M. Rahmani, Dual bound states in the continuum enhanced second harmonic generation with Transition Metal Dichalcogenides monolayer, Opto-Electron. Adv. 5, 200097 (2022).
[7] P. Hong, W. L. Vos, Controlled light scattering of a single nanoparticle by wavefront shaping. Phys. Rev. A 106, 063502 (2022).
[8] P. Hong and Y. Liang, Three-dimensional microscopic single-pixel imaging with chaotic light, Phys. Rev. A 105, 023506 (2022).
[9] Z. Zheng, L. Xu, L. Huang, D. Smirnova, P. Hong, C. Ying, and M. Rahmani, Boosting second-harmonic generation in the LiNbO3 metasurface using high-Q guided resonances and bound states in the continuum, Phys. Rev. B 106, 125411 (2022).
[10] P. Hong, Two-photon scattering effect of a single Mie scatterer. J. Opt. Soc. Am. B. 38, 3724 (2021).
[11] P. Hong, Tailoring complex wavefront of scattered light via wavefront shaping, J. Opt. 22, 035604 (2020).
[12] P. Hong, Sub-Rayleigh single-pixel imaging via optical fluctuation, Opt. Lett. 44, 1754 (2019).
[13] P. Hong and G. Zhang, A review of super-resolution imaging through optical high-order interference [Invited], Appl. Sci. 9, 1166 (2019).
[14] L. Li, P. Hong, G. Zhang, Transverse revival and fractional revival of Hanbury Brown-Twiss bunching effect with discrete chaotic light, Phys. Rev. A 99, 023848 (2019).
[15] P. Hong, Two-photon imaging assisted by a thin dynamic scattering layer, Appl. Phys. Lett. 113, 101109 (2018).
[16] P. Hong, O. Ojambati, A. Lagendijk, A. P. Mosk, and W. L. Vos, Three-dimensional spatially-resolved optical energy density enhanced by wavefront shaping, Optica 5, 070844 (2018).
[17] L. Li, P. Hong, G. Zhang, Experimental realization of Heisenberg-limit resolution imaging through a phase-controlled screen with classical light, Opt. Express 26, 18950 (2018).
[18] F. Mariani, W. Löeffler, M. Aas, O. Ojambati, P. Hong, W. Vos, M. van Exter, Scattering media characterization with phase-only wavefront modulation, Opt. Express 26, 2369 (2018).
[19] P. Hong and G. Zhang, Heisenberg-resolution imaging through a phase controlled screen, Opt. Express 25, 22789 (2017).
[20] P. Hong, L. Li, J. Liu, and G. Zhang, Active control on high-order coherence and statistic characterization on random phase fluctuation of two classical point sources, Sci. Rep. 6, 23614 (2016).
[21] P. Hong and G. Zhang, Super-resolved optical lithography with phase controlled source, Phys. Rev. A 91, 053830 (2015).
[22] P. Hong and G. Zhang, Synchronous position two-photon interference of random phase grating, J. Opt. Soc. Am. A 32, 1256 (2015).
[23] L. Xu, H. Yang, P. Hong, F. Bo, J. Xu, and G. Zhang, Lensless imaging based on coherent backscattering in random media, AIP Advances 4, 7124 (2014).
[24] P. Hong and G. Zhang, Subwavelength interference with an effective entangled source, Phys. Rev. A 88, 043838 (2013).
[25] P. Hong, L. Xu, Z. Zhai, and G. Zhang, High visibility two-photon interference with classical light, Opt. Express 21, 14056 (2013).
[26] P. Hong, J. Liu, and G. Zhang, Two-photon superbunching of thermal light via multiple two-photon path interference, Phys. Rev. A 86, 013807 (2012).