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First experimental observation of plasmonic photonic jet based on dielectric cube

We report on the first experimental demonstration that the microstructure based on a dielectric cuboid combined to a thin metal film can act as an efficient plasmonic lens allowing focusing surface plasmons in a subwavelength scale. By means of numerical simulation of surface plasmon-polariton (SPP) field intensity distributions in the microstructure, we observe a low divergence of plasmonic photonic jet (PPJ) and high intensity subwavelength spots at the communication wavelength of 1530 nm. Then we fabricate an experimental sample of the microstructure and study the SSP field intensity distributions using the amplitude and phase-resolved scanning near-field optical microscopy and demonstrate the experimental observation of the PPJ effect for the SSP waves. Such novel and simple platform can provide new pathways for plasmonics, high-resolution imaging, biophotonics as well as optical data storage.

preprint2019arXivOpen access
Igor V. MininOleg V. MininDmitry S. PonomarevIgor A. GlinskiyDmitry I. YakubovskyValentin. S. Volkov
physics.optics
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Open access6 authors1 topic
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Igor V. MininOleg V. MininDmitry S. PonomarevIgor A. GlinskiyDmitry I. YakubovskyValentin. S. Volkov

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