2010前
11. Magnetic resonance hybridization and optical activity of microwaves in a chiral metamaterial
T. Q. Li, H. Liu,T. Li,S. M. Wang, F. M. Wang, R. X. Wu, P. Chen, S. N. Zhu and X. Zhang
Appl. Phys. Lett. | 92,131111 (2008)
12. Negative index of refraction in metallic metamaterial comprising split-ring resonators
Z.G. Dong, S.Y. Lei, M. X. Xu, H. Liu,T. Li,F. M. Wang, S. N. Zhu
Phys. Rev. E | 77, 056609 (2008)
13. Magnetic plasmon modes in periodic chains of nanosandwiches
S. M. Wang, T. Li, H. Liu, F. M. Wang, S. N. Zhu and X. Zhang
Optics Express | 16, 3560 (2008)
14. Dispersion of magnetic plasmon polaritons in perforated trilayer metamaterials
T. Li,S. M. Wang, H. Liu, J. Q. Li, F. M. Wang, S. N. Zhu and X. Zhang
J. Appl. Phys. | 103, 023104 (2008)
15. Highly confined energy propagation in a gap waveguide composed of two coupled nanorod chains
F. M. Wang, H. Liu, T. Li,S. M. Wang, S. N. Zhu, J. Zhu and W. W. Cao
Appl. Phys. Lett. | 91, 133107 (2007)
16. Omnidirectional negative refraction with wide bandwidth introduced by magnetic coupling in a tri-rod structure
F. M. Wang, H. Liu,T. Li,S. N. Zhu, and X. Zhang
Phys. Rev. B | 76, 075110 (2007)
17. Surface-plasmon-induced optical magnetic response in perforated trilayer metamaterial
T. Li, H. Liu, F. M. Wang, J. Q. Li, Y. Y. Zhu, and S. N. Zhu
Phys. Rev. E | 76, 016606 (2007)
18. Exploring magnetic plasmon polaritons in optical transmission through hole arrays perforated in trilayer structures
T. Li,J. Q. Li, F.M. Wang, Q. J. Wang, H. Liu, S.N. Zhu, and Y. Y. Zhu
Appl. Phys. Lett. | 90, 251112 (2007)
19. Non-left-handed transmission and bianisotropic effect in a π-shaped metallic metamaterial
Z.G. Dong, S.Y. Lei, Q. Li, M. X. Xu, H. Liu,T. Li,F. M. Wang, S. N. Zhu
Phys. Rev. B | 75, 075117 (2007)
20. Lagrange model for the chiral optical properties of stereometamaterials[ DOWNLOAD PDF ]
H. Liu, J. X. Cao, S. N. Zhu, N. Liu, R. Ameling, and H. Giessen
Phys. Rev. B (rapid communication) | 81, 241403 (R) (2010)
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