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Ultrafast Manipulation of Transient Energy Transfer Between Surface Plasmons and Resonators in Hybrid Nano-coupling System
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作者 YUE Yuanyuan ZHANG Zhenyu WANG Haiyu 《Chemical Research in Chinese Universities》 SCIE CAS CSCD 2016年第5期797-802,共6页
Surface-plasmon(SP) modes triggered on metal nanostructures were strongly coupled to the local restricted electronmagnetic field supported by a Fabry-Perot(F-P) cavity. This hybrid system provided an ideal platfor... Surface-plasmon(SP) modes triggered on metal nanostructures were strongly coupled to the local restricted electronmagnetic field supported by a Fabry-Perot(F-P) cavity. This hybrid system provided an ideal platform to study the interaction between SP and F-P resonators on nanoscales. However, the time-resolved transient energy transfer process is far from resolved. In this letter, we addressed this question by time-resolved femtosecond pump-probe technology and readily observed the transient energy transfer between SP and nanocavity resonant ener- gy. The interaction resulted in the emergence of hybrid splitting mode and the oscillating dynamics between upper and lower polariton branch(the split hybrid states). Our work may provide a well comprehension of strong coupling between SP modes and F-P resonator modes, and lay some groundwork for many future photonic applications. 展开更多
关键词 Energy transfer SURFACE-PLASMON nano-coupling system Strong coupling Time-resolved femtosecond pump-probe technology
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Plasmonic Luneburg lens and plasmonic nano-coupler 被引量:2
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作者 Lei Zhang Lin Wang +1 位作者 Yanqing Wu Renzhong Tai 《Chinese Optics Letters》 SCIE EI CAS CSCD 2020年第9期59-63,共5页
In a single nanoscale device, surface plasmon polaritons(SPPs) have potential to match the different length scales associated with photonics and electronics. In this Letter, we propose an accurate design of a plasmoni... In a single nanoscale device, surface plasmon polaritons(SPPs) have potential to match the different length scales associated with photonics and electronics. In this Letter, we propose an accurate design of a plasmonic metasurface Luneburg lens(PMLL) accommodating SPPs. The simulations indicate that the full width at half-maximum is 0.42 μm, and the focus efficiency is 78%. The characters of a PMLL have robustness to manufacturing errors. The PMLL is applied in a 10 μm long compact coupler model, which couples the SPPs to the 40 nm wide output waveguide. The couple efficiency is higher than that of a conventional taper coupler in a broad bandwidth. The design is compatible with standard lithography technology. 展开更多
关键词 Luneburg nano-coupler PLASMONICS
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