1. A sensitive 2D plasmon ruler based on Fano resonance
- Author
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Xiaoyun Liu, Baoyuan Man, Pingxin Xiong, Chao Zhang, Minghong Wang, Tingyin Ning, Saisai Gao, Yanyan Huo, and Shouzhen Jiang
- Subjects
Nanostructure ,Chemistry ,business.industry ,General Chemical Engineering ,Physics::Optics ,Fano resonance ,02 engineering and technology ,General Chemistry ,Fano plane ,021001 nanoscience & nanotechnology ,Rotation ,01 natural sciences ,Optics ,0103 physical sciences ,Nanorod ,010306 general physics ,0210 nano-technology ,business ,Plasmon ,Nanoring ,Localized surface plasmon - Abstract
In this paper, we designed a 2D distance and rotation angle plasmon ruler based on Fano resonance of a trimer nanostructure, which consists of a concentric square nanoring–disk and an outside nanorod (CSRDR). The Fano dip energy and depth are fairly sensitive to the nanometer-scale displacements and rotations, when the nanodisk moves in all direction and rotates around its center. When the symmetry of the nanoring is broken, we can identify the moving and rotating direction of the nanodisk more accurately. We use the CSRDR nanostructure which supports a narrow line-width as a 2D plasmon ruler, which can enhance the sensitivity of a plasmon ruler significantly.
- Published
- 2016
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