Label-free incoherent super-resolution optical microscopy
Abstract
The photo-kinetics of fluorescent molecules have enabled the circumvention of far-field optical diffraction-limit. Despite its enormous potential, the necessity to label the sample may adversely influence the delicate biology under investigation. Thus, continued development efforts are needed to surpass the far-field label-free diffraction barrier. The coherence of the detected light in label-free mode hinders the application of existing super-resolution methods based on incoherent fluorescence imaging. In this article, we present the physics and propose a methodology to circumvent this challenge by exploiting the photoluminescence of silicon nitride waveguides for near-field illumination of unlabeled samples. The technique is abbreviated EPSLON, Evanescently decaying Photoluminescence Scattering enables Label-free Optical Nanoscopy. We demonstrate that such an illumination has properties that mimic the photo-kinetics of nano-sized fluorescent molecules. This allows for developing a label-free incoherent system that is linear in intensity, and stable with time thereby permitting the application of techniques like structured illumination microscopy (SIM) and intensity-fluctuation-based optical nanoscopy (IFON) in label-free mode to circumvent the diffraction limit.
Cite
@article{arxiv.2301.03451,
title = {Label-free incoherent super-resolution optical microscopy},
author = {Nikhil Jayakumar and Luis E. Villegas-Hernandez and Weisong Zhao and Hong Mao and Firehun T Dullo and Jean Claude Tinguley and Krizia Sagini and Alicia Llorente and Balpreet Singh Ahluwalia},
journal= {arXiv preprint arXiv:2301.03451},
year = {2024}
}
Comments
45 pages including supplementary, 6 figures in main text and 20 figures in supplementary