NAME：Dongliang Gao

Prof. Gao’s team from Physics department has multiple openings for Master and Ph.Dstudents.

We are dedicated to the research of Scattering of Nanoparticles and Optical Engineering.

We are always looking for talented international applicants to join us.

My Master student Aizaz Khan, who has obtained the CSC Silk-Road Program, will help you with the CSC scholarship application.

My CV:高东梁个人简历 （英文）CV English Dongliang Gao 2025.pdf

Professor

School of Physical Science and Technology

Soochow University, Suzhou 215006, China

Email: dlgao@suda.edu.cn

Website:http://web.suda.edu.cn/dlgao/

Research Expertise and Interests

●Optical force and optical manipulation in nano systems

●Spin Hall shift of light by nanostructures

●Spatiotemporal metamaterials

●Nonlinear optics

Professional Experience / Education

●School of Physical Science and Technology, Soochow University, China

Jul. 2023- PresentProfessor

●School of Physical Science and Technology, Soochow University, China

Jan. 2015- Jun. 2023Assistant Professor, and then Associate Professor

●School of Electrical & Electronic Engineering, Nanyang Technological University, Singapore

Oct. 2018- Oct. 2019Visiting Scholar, Nanophotonics Lab

●Electrical & Computer Engineering Department, National University of Singapore, Singapore

Aug. 2013- Jan. 2015 Research Fellow, Microware Research Lab

Aug. 2011- Aug. 2012Research Assistant, Radar & Signal Processing Laboratory

● School of Physical Science and Technology, Soochow University, China

Sep. 2008- Jul. 2013Ph.D, Supervisor: Prof. Lei Gao

Teaching Courses

Quantum Mechanics

Interesting Physics in Quantum Systems

Interesting Physics in Financial Markets

General Physics Experiment Course

Honors

1. 2^nd Class Award of Science and Technology Progress of Jiangsu Province (2014)

2. National Scholarship for Graduate Students (2012)

3. 1^st Class Award for Academic Research In Science In Suzhou (2008-2009)

4. 3^rd Class Award for Academic Research In Science In Suzhou (2010-2011)

5. Best award in the Competition of science and technology works of Jiangsu Province (2010)

6. Outstanding Student (Soochow University, 2009-2010)

Research Grants

1.Principal Investigator, 2022-2025, Funding Amount: RMB 560K,

National Natural Science Foundation of China (No. 12174281)

2.Principal Investigator, 2016-2018, Funding Amount: RMB 200K,

National Natural Science Foundation of China (No. 11504252)

3.Principal Investigator, 2016-2018, Funding Amount: RMB 200K,

Natural Science Foundation of Jiangsu Province (No. BK20150306)

4.Principal Investigator, 2018-2019, Funding Amount: RMB 150K,

Jiangsu Provincial Innovation and Entrepreneurship Doctoral Program

5.Principal Investigator, 2021-2023, Funding Amount: RMB 100K,

Engineering Research of the Ministry of Education

6.Principal Investigator, 2018-2019, Funding Amount: RMB 80K,

Postdoctoral Science Foundation of China (No. 2018M630596)

7.Principal Investigator, 2022-2025, Funding Amount: RMB 100K,

Top Young Talents in Physics Program, Soochow University

8.Principal Investigator, 2020-2022, Funding Amount: RMB 50K,

Cultivating Young Talents in Physics Program, Soochow University

9.Principal Investigator, 2015-2025, Funding Amount: RMB 100K,

Start-up Grant, Soochow University

My graduate students: Please check the link:https://web.suda.edu.cn/dlgao/

Publications (only show first/corresponding author’s papers)

1. A. Khan, X. Gu, L. Gao*, A. Novitsky, and D.L. Gao*, Photonic Spin Hall Effect of Nanoparticles: Fundamentals, Advances, and Applications, Annalen der Physik (2024 online).

2. Y. Yu, D.L. Gao*, Y. Yang, L. Liu, Z. Li, Q. Yang, H. Wu, L. Zou, X. Lin, J. Xiong, S. Hou, L. Gao*, and H. Hu*, Generalized Coherent Wave Control at Dynamic Interfaces, Laser & Photonics Reviews (2024 online). DOI: 10.1002/lpor.202400399

3. Aizaz Khan, X. Gu, L. Gao*, A. Novitsky, D.L. Gao*, Photonic spin Hall effect of nanoparticles: Fundamentals, advances, and applications, Annalen der Physik (Accepted)

4. Aizaz Khan, X. Gu, L. Gao*, L. Hou, J. Akbar*, and D.L. Gao*, Tunable superluminal propagation at spectral hole-burning regions in magneto-optical atomic medium, Results in Physics 58, 107507 (2024).

5.Y. Yu, H. Hu*, L. Zou, Q. Yang, X. Lin, Z. Li, L. Gao*, and D.L. Gao*, Antireflection spatiotemporal metamaterials, Laser & Photonics Reviews 17, 2300130 (2023). (Cover)

6.C. Wang, A. Novitsky, W. Ge, D.L. Gao*, and L. Gao*, Anisotropy-enhanced second-harmonic generation from graphene-wrapped nanoparticles, Optik 276, 170651 (2023).

7.C. Wang, D.L. Gao*, and L. Gao*, Detecting nonlocality by second-harmonic generation from a graphene-wrapped nanoparticle, Optics Express 30(8), 12722-12731 (2022).

8.Y. C. Sun (undergraduate student), P. Xu, L. Gao*, A. E. Miroshnichenko*, and D.L. Gao*, Wavelength-scale spin Hall shift of light with morphology-enhanced scattering efficiency from nanoparticles, Laser &Photonics Reviews16(11), 2200289 (2022).

9.X. Gu, Y. Sun, L. Gao*, A. Novitsky, W. Yu*, and D.L. Gao, Nonlinearity-tuned optical spin-orbit interaction of graphene-wrapped nanoparticles, IEEE Photonics Journal 14(6), 1-5 (2022).

10.  D.L. Gao, H. Ye, and L. Gao*, Topology-tuned light scattering around Fano resonances by a core-shell cylinder, Optics Express 30(5), 8399-8408 (2022).

11.  Q. Zhang, D.L. Gao*, and L. Gao*, Tunable spin Hall shift of light from graphene-wrapped spheres, Optics Express 29(7), 9816-9825 (2021).

12.  Y. Q. Wang (undergraduate student), H. Hu, Q. Zhang, D.L. Gao* and L. Gao*, Topologically-tuned spin Hall shift around Fano resonance, Optics Express 28(15), 21641-21649 (2020).

13.  X. C. Jiang, Y. W. Zhou, D.L. Gao*, Y. Huang, and L. Gao*, Realizing optical bistability and tristability in plasmonic coated nanoparticles with radial-anisotropy and Kerr-nonlinearity, Optics Express 28(12), 17384 (2020).

14.C. L. Wang, Y. Q. Wang, H. Hu, D. J. Liu, D.L. Gao*, and L. Gao*, Reconfigurable sensor and nanoantenna by graphene-tuned Fano resonance, Optics Express 27(24), 35925 (2019).

15.R. Shi, D.L. Gao*, H. Hu, Y. Q. Wang, and L. Gao*, Enhanced broadband spin Hall effects by core-shell nanoparticles, Optics Express 27(4), 4808-4817 (2019).

16.H. Hu, L. Liu*, X. Hu, D. Liu, and D.L. Gao*, Routing emission with a multi-channel nonreciprocal waveguide, Photonics Research7(6), 642 (2019).

17.X. Hou, D.L. Gao*, and L. Gao*, Graphene-tuned optical manipulation on microparticle by Bessel beam, AIP Advances 9(3), 035154 (2019).

18.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).

19.D.L. Gao, R. Shi, A. E. Miroshnichenko, and L. Gao*, Enhanced spin Hall effect of light in spheres with dual symmetry, Laser & Photonics Reviews12(11), 1800130 (2018).(Cover)

20.D.L. Gao, R. Shi, Y. Huang, and L. Gao*, Fano-enhanced pulling and pushing optical force on active plasmonic nanoparticles, Physical Review A96(4), 043826 (2017).

21.D.L. Gao, W. Q. Ding, M. Nieto-Vesperinas, X. Ding, M. Rahman, T. H. Zhang, C. T. Lim, and C.-W. Qiu*, Optical manipulation from microscale to nanoscale: Fundamentals, advances, and prospects, Light: Science & Applications6, e17039 (2017).

22.X. Bian, D.L. Gao*, and L. Gao*, Tailoring optical pulling force on gain coated nanoparticles with nonlocal effective medium theory, Optics Express 25(20), 24566-24578 (2017).

23.P. J. Ma, D.L. Gao*, Y. X. Ni, and L. Gao*, Enhancement of optical nonlinearity by core-shell bimetallic nanostructures, Plasmonics 11(1), 183-187 (2016).

24.D.L. Gao, A. Novitsky, T. Zhang, F. C. Cheong, L. Gao, C. T. Lim, B. Luk'yanchuk, and C.-W. Qiu*, Unveiling the correlation between non-diffracting tractor beam and its singularity in Poynting vector, Laser & Photonics Reviews9(1), 75-82 (2015).

25.D.L. Gao L. Gao*, A. Novitsky, H. Chen, and B. Luk'yanchuk, Topological effects in anisotropy-induced nano-Fano resonance of a cylinder, Optics Letters40(17), 4162-4165 (2015).

26.D.L. Gao, C. W. Qiu*, L. Gao, T. Cui, and S. Zhang, Macroscopic broadband optical escalator with force-loaded transformation optics, Optics Express 21(1), 796-803 (2013).

27.D.L. Gao, L. Gao*, and C. W. Qiu*, Birefringence-induced polarization-independent and nearly all-angle transparency through a metallic film, Europhysics Letters 95(3), 34004 (2011).

28.D.L. Gao, and L. Gao*, Goos–Hänchen shift of the reflection from nonlinear nanocomposites with electric field tunability, Applied Physics Letters97(4), 041903 (2010).

29.D.L. Gao, and L. Gao*, Tunable lateral shift through nonlinear composites of nonspherical particles, Progress In Electromagnetics Research 99, 273-287 (2009).

Teaching Courses

Quantum Mechanics

Interesting Physics in Quantum Systems

Interesting Physics in Financial Markets

General Physics Experiment Course