Lateral Magnetic Near‐Field Imaging of Plasmonic Nanoantennas With Increasing Complexity |
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| Authors: | Denitza Denkova Niels Verellen Alejandro V. Silhanek Pol Van Dorpe Victor V. Moshchalkov |
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| Affiliation: | 1. INPAC‐Institute for Nanoscale Physics and Chemistry, KU Leuven, , B‐3001 Leuven, Belgium;2. Département de Physique, Université de Liège, , Sart Tilman, B‐4000 Belgium;3. IMEC, , 3001 Leuven, Belgium;4. Physics Department, KU Leuven, , B‐3001 Leuven, Belgium |
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| Abstract: | The design of many promising, newly emerging classes of photonic metamaterials and subwavelength confinement structures requires detailed knowledge and understanding of the electromagnetic near‐field interactions between their building blocks. While the electric field distributions and, respectively, the electric interactions of different nanostructures can be routinely measured, for example, by scattering near‐field microscopy, only recently experimental methods for imaging the magnetic field distributions became available. In this paper, we provide direct experimental maps of the lateral magnetic near‐field distributions of variously shaped plasmonic nanoantennas by using hollow‐pyramid aperture scanning near‐field optical microscopy (SNOM). We study both simple plasmonic nanoresonators, such as bars, disks, rings and more complex antennas. For the studied structures, the magnetic near‐field distributions of the complex resonators have been found to be a superposition of the magnetic near‐fields of the individual constituting elements. These experimental results, explained and validated by numerical simulations, open new possibilities for engineering and characterization of complex plasmonic antennas with increased functionality. |
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| Keywords: | optical magnetic field near‐field imaging surface plasmon resonance nanoantenna interactions field superposition |
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