S. M. Wang
Nanjing University
21 Papers
49 Citations
S. M. Wang is an academic researcher from Nanjing University. The author has contributed to research in topics: Plasmon & Metamaterial. The author has an hindex of 14, co-authored 21 publications.
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Papers
Enhanced sensing performance by the plasmonic analog of electromagnetically induced transparency in active metamaterials
TL;DR: In this paper, the gain-assisted plasmonic analog of electromagnetically induced transparency (EIT) in a metallic metamaterial was investigated for the purpose to enhance the sensing performance of the EIT-like PLASmonic structure.
Magnetic field induced ferroelectricity and half magnetization plateau in polycrystalline R 2 V 2 O 7 ( R = Ni , Co )
R. Chen,Jianying Wang,Z. W. Ouyang,Zhangzhen He,S. M. Wang,L. Lin,J.-M. Liu,Chengliang Lu,Yi Liu,Chao Dong,Chao Dong,C. B. Liu,Zefeng Xia,Akira Matsuo,Yoshimitsu Kohama,K. Kindo +15 more
TL;DR: In this article, the half magnetization plateau and ferroelectricity were observed simultaneously in the bond-alternating skew-chain compounds and the magnetic field was stabilized in fields of 8--30 T (7--12 T).
37
Spectral analysis of enhanced third harmonic generation from plasmonic excitations
TL;DR: In this paper, an enhanced third harmonic generation (THG) from hole-array in gold film was investigated by a spectrum-resolved femto-second laser system, where the momentum matching conditions between the fundamental and harmonic waves were well established, giving results of a series of clear THG beam spots with respect to different excitation wavelengths.
Magnetic structure and multiferroicity of Sc-substituted hexagonal Yb Fe O 3
Y. S. Tang,S. M. Wang,L. Lin,V. Ovidiu Garlea,Tao Zou,S. H. Zheng,Hui-Min Zhang,Ji-Yang Zhou,Z. L. Luo,Zhendong Yan,Shuai Dong,Timothy Charlton,J.-M. Liu +12 more
TL;DR: In this paper, the hexagonal rare-earth ferrite (R\mathrm{Fe}O}}_{3}$ family was stabilised by partial Sc substitution of Yb and the moments of the Yb/Sc planes were shown to order independently and ferrimagnetically along the $c$ axis.
14
Selective optical trapping based on strong plasmonic coupling between gold nanorods and slab
Yuanjin Zheng,Hui Liu,S. M. Wang,Tao Li,J. X. Cao,Lin Li,Chunling Zhu,Yumei Wang,Shining Zhu,Xiang Zhang +9 more
TL;DR: In this article, a resonance plasmon mode is formed between a gold nanorod and an infinite slab in infrared range, with local electric field enhancement factor over 40.0 nN/(mW/μm2).