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Dr. Wenlong Gao

Dr. Wenlong Gao

Ultrafast Nanophotonics


+49 5251 60-3113
Pohlweg 47-49
33098 Paderborn

Wang, W., Gao, W. et al.. Moiré fringe induced gauge field in photonics. Physical Review Letters (Editors’ Suggestion), 125, 203901. (2020) (Corresponding author, Equal contribution)

Cheng, H., Gao, W. et al. Vortical Reflection and Spiralling Fermi Arcs with Weyl Metamaterials. Physical Review Letters (Editors’ Suggestion), 125(9), 093904. (2020). (Corresponding author, Equal contribution)

Gao, W., Yang, B. et al Experimental observation of photonic nodal line degeneracies in metacrystals. Nature communications, 9(1), 1-7. (2018).

Gao, W., Yang, B. et al. Photonic Weyl degeneracies in magnetized plasma. Nature communications, 7(1), 1-8. (2016)

Gao, W., Fang, F. Z. et al. Chiral surface waves supported by biaxial hyperbolic metamaterials. Light: Science & Applications, 4(9), e328. (2015)

Gao, W., Lawrence, M. et al. Topological photonic phase in chiral hyperbolic metamaterials. Physical review letters, 114(3), 037402. (2015)

Gao, W., & Wang, Y. T. Ideal Photonic Weyl Nodes Stabilized by Screw Rotation Symmetry in Space Group 19. Crystals, 10(7), 605. (2020) (Corresponding author, Equal contribution)

Yang, Y., Gao, W. et al. Spontaneous emission and resonant scattering in transition from type I to type II photonic Weyl systems. Physical review letters, 123(3), 033901. (2019) (Equal contribution)

Wang, W., Gao, W. et al. Photonic topological fermi nodal disk in non-Hermitian magnetic plasma. Light: Science & Applications, 9(1), 1-8. (2020) (Equal contribution)

Xia, L., Gao, W. et al. Stretchable photonic ‘Fermi Arcs’ in twisted magnetized plasma. Laser & Photonics Reviews, 12(1), 1700226. (2018). (Equal contribution)

Kim, M., Gao, W. et al Extremely broadband topological surface states in a photonic topological metamaterial. Advanced Optical Materials, 7(20), 1900900. (2019)  (Equal contribution)

Jia, H., Zhang, R., Gao, W. et al. Observation of chiral zero mode in inhomogeneous three-dimensional Weyl metamaterials. Science, 363(6423), 148-151. (2019)

Liu, S., Ma, S., Yang, C., Zhang, L., Gao, W., Xiang, Y. J., ... & Zhang, S.. Gain-and Loss-Induced Topological Insulating Phase in a Non-Hermitian Electrical Circuit. Physical Review Applied, 13(1), 014047. (2020)

Wang, D., Yang, B., Gao, W., Jia, H., Yang, Q., Chen, X., ... & Zhang, W. Photonic Weyl points due to broken time-reversal symmetry in magnetized semiconductor. Nature Physics, 15(11), 1150-1155. (2019)

Yang, B., Guo, Q., Tremain, B., Liu, R., Barr, L. E., Yan, Q., ... & Fang, C. Ideal Weyl points and helicoid surface states in artificial photonic crystal structures. Science, 359(6379), 1013-1016. (2018)

Guo, Q., Yang, B., Xia, L., Gao, W., Liu, H., Chen, J., ... & Zhang, S. Three dimensional photonic Dirac points in metamaterials. Physical Review Letters, 119(21), 213901. (2017)

Liu, C., Gao, W., Yang, B., & Zhang, S. Disorder-induced topological state transition in photonic metamaterials. Physical review letters, 119(18), 183901. (2017)

Yang, B., Guo, Q., Tremain, B., Barr, L. E., Gao, W., Liu, H., ... & Zhang, S. Direct observation of topological surface-state arcs in photonic metamaterials. Nature communications, 8(1), 1-7. (2017)

Guo, Q., Gao, W., Chen, J., Liu, Y., & Zhang, S. Line degeneracy and strong spin-orbit coupling of light with bulk bianisotropic metamaterials. Physical review letters, 115(6), 067402. (2015)


Prof. Dr. Thomas Zentgraf

Ultrafast Nanophotonics

Thomas Zentgraf
+49 5251 60-5865
+49 5251 60-5886

The University for the Information Society