用于深部组织多光子显微镜的1030 - 1215纳米可调谐高能超快光纤激光源。

Energetic ultrafast fiber laser sources tunable in 1030-1215 nm for deep tissue multi-photon microscopy.

作者信息

Liu Wei, Chia Shih-Hsuan, Chung Hsiang-Yu, Greinert Rüdiger, Kärtner Franz X, Chang Guoqing

出版信息

Opt Express. 2017 Mar 20;25(6):6822-6831. doi: 10.1364/OE.25.006822.

DOI:10.1364/OE.25.006822

Abstract

We demonstrate an energy scalable approach to implement ultrafast fiber laser sources suitable for deep tissue multi-photon microscopy imaging. Enabled by fiber-optic nonlinearities (dominated by self-phase modulation), these unique ultrafast sources produce nearly transform-limited pulses of 50-90 fs in duration with the center wavelength tunable in the wavelength range of 1030-1215 nm. The resulting pulse energy can be scaled up to 20 nJ by optimizing fiber dispersion, shortening fiber length, and using large-mode-area fibers. We applied such an energetic source to a proof-of-principle study of ex vivo human skin based on harmonics (i.e., second-harmonic generation and third-harmonic generation) imaging. This new type of fiber-format energetic ultrafast source provides a robust solution for multiphoton microscopy applications.

摘要

我们展示了一种能量可扩展的方法，用于实现适用于深部组织多光子显微镜成像的超快光纤激光源。受光纤非线性（以自相位调制为主）的推动，这些独特的超快光源产生持续时间近50-90飞秒的近变换极限脉冲，中心波长可在1030-1215纳米的波长范围内调谐。通过优化光纤色散、缩短光纤长度和使用大模面积光纤，脉冲能量可扩大到20纳焦。我们将这种高能光源应用于基于谐波（即二次谐波产生和三次谐波产生）成像的离体人体皮肤原理验证研究。这种新型的光纤形式高能超快光源为多光子显微镜应用提供了一种可靠的解决方案。

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用于深部组织多光子显微镜的1030 - 1215纳米可调谐高能超快光纤激光源。

Energetic ultrafast fiber laser sources tunable in 1030-1215 nm for deep tissue multi-photon microscopy.

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