Mr. Michael J. Benker Profile

Michael J. Benker

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Proceedings Article | 5 March 2022 Presentation

Nanophotonics in electromagnetic measurements

Tariq Manzur, Xuejun Lu, Yifei Li, Michael Benker, Lucio De Pra

Proceedings Volume PC12009, PC1200903 (2022) https://doi.org/10.1117/12.2601722

KEYWORDS: Nanophotonics, Electromagnetism, 3D modeling, Synthetic aperture radar, Radar, Optical testing, Microwave radiation, Maxwell's equations, Extremely high frequency

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Nanophotonics can play important roles for next generation electromagnetic measurements and communications. At present, critical Electromagnetic (EM) properties such as radar cross section (RCS) and inverse synthetic aperture radar image (ISAR) are often measured in anechoic chambers. But for very large structures, this could be expensive or impractical due to the sheer size of the structure. Maxwell's equations are invariant under dilatation transformation. It is possible to make the measurement on reduced size models and using proportionally higher frequencies. By conserving the scale factor between model and wavelength, the solution is identical. Thus, using nanophotonics, we create a 3D- printed emulator at the light wavelength for high resolution scaled RCS/ISAR measurements of large complex microwave and millimeter wave EM structures. The RCS and ISAR of the EM structure is consequently measured by an ultra-compact benchtop coherent optical measurement range. In addition, we develop quantum dot coupled active plasmonic nano antenna that can integrate with nano-photonic emulator to study RF antenna propagation inside complex electromagnetic structures.

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