1. Probing bright and dark surface-plasmon modes in individual and coupled noble metal nanoparticles using an electron beam
- Author
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F. Javier García de Abajo, Jing-Pei Deng, Viktor Myroshnychenko, Ming-Wen Chu, Chung-Yuan Mou, and Cheng Hsuan Chen
- Subjects
Light ,Physics::Optics ,Bioengineering ,Electrons ,Electron ,Scanning transmission electron microscopy ,Microscopy ,Nanotechnology ,Scattering, Radiation ,General Materials Science ,Computer Simulation ,Particle Size ,Spectroscopy ,Scattering ,Chemistry ,Mechanical Engineering ,Surface plasmon ,General Chemistry ,Surface Plasmon Resonance ,Condensed Matter Physics ,Nanostructures ,Models, Chemical ,Metals ,Excited state ,Nanorod ,Atomic physics - Abstract
The rich structure of bright and dark surface-plasmon modes localized in individual and coupled gold nanoparticles is unveiled by electron- energyloss spectroscopy performed in a scanning transmission electron microscope. Spatially resolved maps of surface-plasmon modes in the ̃1.5-2.5 eV range (wavelengths ̃500-800 nm), collected for individual nanorods, coupled nanorod dimers, and touching nanosphere dimers, are in excellent agreement with theory. Surface-plasmon maps constructed from the spatially and spectrally resolved energy-loss signais are shown to mimic rather well the near fields calculated for extemal illumination in the case of bright surface-plasmon modes (i.e., those coupling to external light). Dark surface-plasmon modes that cannot be excited by optical means are also found, and our electron probing technique provides further insight into their corresponding spatial distribution and symmetry, which are not accessible to any other existing techniques. Our resutts initiate the study of a whole set of new dark surface-plasmon modes that should become a source of new applications in sensing and microscopy but have escaped experimental scrutiny so far., This work was supported by the National Taiwan University Excellence Project, the National Science Council of Taiwan, the Spanish Ministry of Science and Innovation (MAT2007-66050 and Consolider NanoLight), and the EU-FP6 (NMP4-2006-016881 “SPANS”)
- Published
- 2008