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Rapid simulations of hyperspectral near-field images of three-dimensional heterogeneous surfaces – part II

Xinzhong Chen, Ziheng Yao, Zhiyuan Sun, Stefan G. Stanciu, D. N. Basov, Rainer Hillenbrand, Mengkun Liu

2022Optics Express28 citationsDOIOpen Access PDF

Abstract

The modeling of the near-field interaction in the scattering-type scanning near-field optical microscope (s-SNOM) is rapidly advancing, although an accurate yet versatile modeling framework that can be easily adapted to various complex situations is still lacking. In this work, we propose a time-efficient numerical scheme in the quasi-electrostatic limit to capture the tip-sample interaction in the near field. This method considers an extended tip geometry, which is a significant advantage compared to the previously reported method based on the point-dipole approximation. Using this formalism, we investigate, among others, nontrivial questions such as uniaxial and biaxial anisotropy in the near-field interaction, the relationship between various experimental parameters (e.g. tip radius, tapping amplitude, etc.), and the tip-dependent spatial resolution. The demonstrated method further sheds light on the understanding of the contrast mechanism in s-SNOM imaging and spectroscopy, while also representing a valuable platform for future quantitative analysis of the experimental observations.

Topics & Concepts

Hyperspectral imagingOpticsAnisotropyLimit (mathematics)Computer scienceSpatial frequencyImage processingMicroscopeMaterials scienceMicroscopyOptical imagingContrast (vision)Inverse problemRigorous coupled-wave analysisBidirectional reflectance distribution functionImage resolutionOptical microscopeRefractive indexOrientation (vector space)Biological systemAlgorithmNumerical analysisPhysicsLight scatteringNear-Field Optical MicroscopyPlasmonic and Surface Plasmon ResearchThermal Radiation and Cooling Technologies
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