TIRF microscopy with ultra-short penetration depth | Zendy

Hao Shen | Zendy; Eric J. Huang | Zendy; Tapaswini Das | Zendy; Hongxing Xu | Zendy; Mark H. Ellisman | Zendy; Zhaowei Liu | Zendy

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TIRF microscopy with ultra-short penetration depth

Author(s) -

Hao Shen,

Eric J. Huang,

Tapaswini Das,

Hongxing Xu,

Mark H. Ellisman,

Zhaowei Liu

Publication year - 2014

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.22.010728

Subject(s) - total internal reflection fluorescence microscope , optics , microscopy , materials science , total internal reflection , penetration depth , refractive index , reflection (computer programming) , fluorescence , fluorescence microscope , microscope , optoelectronics , physics , computer science , programming language

Total internal reflection fluorescence microscopy (TIRF), in both commercial and custom-built configurations, is widely used for high signal-noise ratio imaging. The imaging depth of traditional TIRF is sensitive to the incident angle of the laser, and normally limited to around 100 nm. In our paper, using a high refractive index material and the evanescent waves of various waveguide modes, we propose a compact and tunable ultra-short decay length TIRF system, which can reach decay lengths as short as 19 nm, and demonstrate its application for imaging fluorescent dye-labeled F-actin in HeLa cells.

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