Study of waveguide background at visible wavelengths for on-chip nanoscopy

25 Jan 2021  ·  David A. Coucheron, Øystien I. Helle, James S. Wilkinson, Ganapathy Senthil Murugan, Carlos Domínguez, Hallvar Angelskår, Balpreet S. Ahluwalia ·

On-chip super-resolution optical microscopy is an emerging field relying on waveguide excitation with visible light. Here, we investigate two commonly used high-refractive index waveguide platforms, tantalum pentoxide (Ta$_2$O$_5$) and silicon nitride (Si$_3$N$_4$), with respect to their background with excitation in the range 488-640 nm. The background strength from these waveguides were estimated by imaging fluorescent beads. The spectral dependence of the background from these waveguide platforms was also measured. For 640 nm wavelength excitation both the materials had a weak background, but the background increases progressively for shorter wavelengths for Si3N4. We further explored the effect of the waveguide background on localization precision of single molecule localization for direct stochastic optical reconstruction microscopy (dSTORM). An increase in background for Si$_3$N$_4$ at 488 nm is shown to reduce the localization precision and thus the resolution of the reconstructed images. The localization precision at 640 nm was very similar for both the materials. Thus, for shorter wavelength applications Ta$_2$O$_5$ is preferable. Reducing the background from Si$_3$N$_4$ at shorter wavelengths via improved fabrication will be worth pursuing.

PDF Abstract
No code implementations yet. Submit your code now

Categories


Optics