March 3, 2026

Spatially selective fluorescent microscope based on electrically tunable liquid crystal lenses

Key Points

Spatially selective excitation enhances local fluorescence efficiency, achieving better than 1 µm resolution.
Local lenses can be continuously moved to scan the entire field of view, improving imaging flexibility.
Depth scanning of excitation points is enabled by adjusting the optical power of the liquid crystal lenses.
Integration into commercial microscopes indicates potential for widespread adoption in various applications.

Abstract

The use of a large-aperture liquid crystal device in a fluorescent microscope is demonstrated to obtain a spatially selective excitation with an order of magnitude enhancement of the efficiency of the local fluorescence. Better than 1 µm lateral resolution of excitation is achieved by generating local electrically tunable lenses that can be moved to continuously scan the entire field of view. Changing their optical powers also allows for the continuous depth scanning of the excitation point. The proposed approach can be integrated into commercial microscopes as an “add-on” light source.

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Cite This Study

Hovakimyan et al. (Wed,) studied this question.

synapsesocial.com/papers/69a75c49c6e9836116a2507c https://doi.org/https://doi.org/10.1364/ao.583088

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