AI Article Synopsis
- The scanning surface plasmon microscope (SSPM) utilizes the sensitivity of surface plasmons at the dielectric-metal interface to image materials.
- By applying tomographic techniques, SSPM can achieve resolutions finer than the typical half-wavelength limit, particularly for dielectric objects.
- Additionally, SSPM demonstrates a higher contrast ratio compared to other far-field microscopy methods, making it less affected by noise.
Article Abstract
The imaging principle of the scanning surface plasmon microscope (SSPM) springs from the high sensitivity of surface plasmons to modifications of material properties near the dielectric-metal interface. In this paper, we show that tomographic techniques can be applied to SSPM imaging of dielectric objects to reach resolutions beyond the diffraction-limited half-wavelength scale. Furthermore, this high resolution is not limited to the multiple scattering regime. Finally, we conclude that SSPM is less sensitive to noise because it provides higher contrast ratio than other far-field microscopies.
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| http://dx.doi.org/10.1364/JOSAA.31.000155 | DOI Listing |
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Article Synopsis
- The scanning surface plasmon microscope (SSPM) utilizes the sensitivity of surface plasmons at the dielectric-metal interface to image materials.
- By applying tomographic techniques, SSPM can achieve resolutions finer than the typical half-wavelength limit, particularly for dielectric objects.
- Additionally, SSPM demonstrates a higher contrast ratio compared to other far-field microscopy methods, making it less affected by noise.
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