Generalized Mie theory for full-wave numerical calculations of scattering near-field optical microscopy with arbitrary geometries

Scattering-type scanning near-field optical microscopy is becoming a premier method for the nanoscale optical investigation of materials well beyond the diffraction limit. A number of popular numerical methods exist to predict the near-field contrast for axisymmetric configurations of scatterers on...

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Veröffentlicht in:	arXiv.org 2023-09
Hauptverfasser:	Datz, Dániel, Németh, Gergely, Rátkai, László, Áron Pekker, Kamarás, Katalin
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Sprache:	eng
Schlagworte:	Boron nitride Configurations Mathematical analysis Mie scattering Near fields Numerical methods Optical microscopy Polaritons
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description	Scattering-type scanning near-field optical microscopy is becoming a premier method for the nanoscale optical investigation of materials well beyond the diffraction limit. A number of popular numerical methods exist to predict the near-field contrast for axisymmetric configurations of scatterers on a surface in the quasi-electrostatic approximation. Here, a fully electrodynamic approach is given for the calculation of near-field contrast of several scatterers in arbitrary configuration, based on the generalized Mie scattering method. Examples for the potential of this new approach are given by showing the coupling of hyperbolic phonon polaritons in hexagonal boron nitride layers and showing enhanced scattering in core-shell systems. In general, this method enables the numerical calculation of the near-field contrast in a variety of strongly resonant scatterers and is able to accurately recreate spatial near-field maps.
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subjects	Boron nitride Configurations Mathematical analysis Mie scattering Near fields Numerical methods Optical microscopy Polaritons
title	Generalized Mie theory for full-wave numerical calculations of scattering near-field optical microscopy with arbitrary geometries
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