个人简介
2013年7月获得苏州大学理学博士学位,后进入新加坡国立大学电气与计算机工程系做博士后研究,2015年加入苏州大学物理科学与技术学院。
教育经历
2011.08-2012.08,联合培养博士,新加坡国立大学,电气与计算机工程系
2008.09-2013.06,理学博士,苏州大学,物理科学与技术学院
工作经历
2017.07-至今,副教授,苏州大学,物理科学与技术学院
2018.10-至今,访问学者,新加坡南洋理工大学,电气与电子工程学院
2015.01-2017.06,讲师,苏州大学,物理科学与技术学院
2013.08-2015.01,博士后,新加坡国立大学,电气与计算机工程系
研究领域
主要对纳米颗粒人工复合材料的电磁特性开展研究,研究领域主要包括光操控、纳米体系非局域耦合、牵引光束、超界面纳米天线、热操控等研究领域等。
近期论文
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2、 (1) H. Hu, L.L. Liu*, X. Hu, D.J. Liu, and D.L. Gao*, Routing Emission with Multi-channel Nonreciprocal Waveguide, Photonics Research (2019) 【In press】.
3、 (2) D.L. Gao, R. Shi, A. Miroshnichenko, L. Gao*, Enhanced spin Hall effect of light in spheres with dual symmetry, Laser & Photonics Reviews 12 1800130 (2018).【该工作入选为封面报道】
4、 (3) D.L. Gao, et al., Optical Manipulation from Microscale to Nanoscale: Fundamentals, Advances, and Prospects,Light: Science and Applications 6, e17039 (2017).,【2018年被ESI数据库选为高被引论文,2019年被评为该期刊“Outstanding paper”】
5、 (4) D.L. Gao, A. Novitsky, T. Zhang, F. C. Cheong, L. Gao, C. T. Lim, B. Luk,Laser & Photonics Reviews 9, 75-82 (2015).
6、 (5) D.L. Gao, L. Gao, A. Novitsky, H. Chen, and B. Lukyanchuk,Topological effects in anisotropy-induced nano-Fano resonance of a cylinder, Optics Letters 40,4162-4165 (2015).
8、R. Shi, D.L. Gao*, H. Hu, Y.Q. Wang, L. Gao, Enhanced broadband spin Hall effects by core-shell nanoparticles, Optics Express 27 (4), 4808-4817 (2019).
9、D.L. Gao, R. Shi, A. Miroshnichenko, L. Gao, Enhanced spin Hall effect of light in spheres with dual symmetry, Laser & Photonics Reviews (2018).
10、H. Zhou, D.L. Gao*, and L. Gao*, Tunability of Multipolar Plasmon Resonances and Fano Resonances in Bimetallic Nanoshells, Plasmonics 13(2), 623-630 (2018).
11、H. Zhou, D.L. Gao*, and L. Gao*, Tunability of Multipolar Plasmon Resonances and Fano Resonances in Bimetallic Nanoshells, Plasmonics 13(2), 623-630 (2017).
12、A. Novitsky, W. Ding, M. Wang, D.L. Gao, A. V. Lavrinenko, and C. W. Qiu, Pulling cylindrical particles using a soft-nonparaxial tractor beam, Sci. Rep. 7(1), 652 (2017).
13、D.L. Gao, R. Shi, Y. Huang, and L. Gao, Fano-enhanced pulling and pushing optical force on active plasmonic nanoparticles, Phys. Rev. A 96(4), 043826 (2017).
14、X. Bian, D. L. Gao*, and L. Gao*, Tailoring optical pulling force on gain coated nanoparticles with nonlocal effective medium theory, Opt. Express 25(20), 24566 (2017).
15、P. Ma, D.L. Gao*, Y. Ni, and L. Gao*, Enhancement of Optical Nonlinearity by Core-Shell Bimetallic Nanostructures, Plasmonics 11(1), 183-187 (2016).
16、T. Cao, L. B. Mao, D. L. Gao, W. Q. Ding, and C.-W. Qiu, Fano resonant Ge2Sb2Te5 nanoparticles realize switchable lateral optical force, Nanoscale 8(10), 5657-5666 (2016).
17、D.L. Gao, L. Gao, A. Novitsky, H. Chen, and B. Luk'yanchuk, Topological effects in anisotropy-induced nano-Fano resonance of a cylinder, Opt. Lett. 40,4162-4165 (2015).
18、P. Ma, D. L. Gao*, Y. Ni, and L. Gao*, Enhancement of Optical Nonlinearity by Core-Shell Bimetallic Nanostructures, Plasmonics (2015) DOI:10.1007/s11468-015-0036-x.
19、T. Han, X. Bai, D. Liu, D. L. Gao, B. Li, J. T. Thong, and C. W. Qiu, Manipulating Steady Heat Conduction by Sensu-shaped Thermal Metamaterials, Scientific Reports 5, 10242 (2015).
20、M. Wang, H. Li, D. L. Gao, L. Gao, J. Xu, and C.-W. Qiu, Radiation pressure of active dispersive chiral slabs, Opt. Express 23, 16546 (2015).