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Penetration depth of single-, two-, and three-photon fluorescence microscopic imaging through human cortex structures: Monte Carlo simulation

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posted on 2024-07-11, 19:49 authored by Xiaoyuan Deng, Min Gu
Penetration depth is investigated in terms of the performance of transverse image resolution and signal level in human cortex under single-, two-, and three-photon fluorescence microscopy. Simulation results show that, in a double-layer human cortex structure consisting of gray and white matter media, the signal level is strongly affected by the existence of the white matter medium under three-photon excitation. Compared with three-photon excitation, two-photon excitation keeps a better signal level and sacrifices a slight degradation in image resolution. In a thick gray matter medium, a penetration depth of 1500μ m with a near-diffraction-limited resolution is obtainable under three-photon excitation. It is also demonstrated that the numerical aperture has a slight influence on image resolution and signal level under two- and three-photon excitation because of the nonlinear nature in the excitation process. © 2003 Optical Society of America.

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ISSN

0003-6935

Journal title

Applied Optics

Volume

42

Issue

16

Article number

3321

Pagination

8 pp

Publisher

Optica Publishing Group

Copyright statement

Copyright © 2003 Optical Society of America. The published version is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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