Measurement of group delay dispersion of high numerical aperture objective lenses using two-photon excited fluorescence

Guild JB; Xu C; Webb WW

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Measurement of group delay dispersion of high numerical aperture objective lenses using two-photon excited fluorescence

机译：使用双光子激发荧光测量高数值孔径物镜的群延迟色散

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We determined the group-delay dispersion (GDD) of five microscope objectives by measuring the second-order autocorrelation at the focal points of the objectives with two-photon excited fluorescence as the power square sensor. We found that typical microscope lens systems introduce significant GDD (2000-6500 fs(2)). The third-order dispersion determined for these objectives limits the minimum obtainable pulse width at the focal point of an objective to 20-30 fs if not compensated. No significant chromatic aberration or higher-order dispersion effects were found for any of the optical components measured within the wavelength range of 700-780 nm and for pulse widths greater than 50-60 fs. (C) 1991 Optical Society of America

机译：我们通过使用双光子激发荧光作为功率平方传感器测量物镜焦点处的二阶自相关，确定了五个显微镜物镜的群延迟色散（GDD）。我们发现典型的显微镜透镜系统引入了显着的GDD（2000-6500 fs（2））。为这些物镜确定的三阶色散将物镜焦点处的最小可获得脉冲宽度（如果未补偿）限制为20-30 fs。对于在700-780 nm波长范围内测量的任何光学组件以及大于50-60 fs的脉冲宽度，均未发现明显的色差或更高阶的色散效应。（C）1991年美国眼镜学会

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《Applied optics》 |1997年第1期|共5页
作者
Guild JB; Xu C; Webb WW;
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正文语种 eng
中图分类光学;
关键词
PULSES; MICROSCOPY; PHASE;

机译：脉冲;显微镜;相;

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1. Measurement of group delay dispersion of high numerical aperture objective lenses using two-photon excited fluorescence [J] . Guild JB, Xu C, Webb WW Applied optics . 1997,第1期

机译：使用双光子激发荧光测量高数值孔径物镜的群延迟色散
2. Ultra High Numerical Aperture Objective Lenses and Optical System Improved Objective Type Total Internal Reflection Fluorescence Microscopy [J] . Katsuyuki Abe 膜 . 2002,第5期

机译：超高值孔径物镜和光学系统改进的物镜型全内反射荧光显微镜
3. Ultra High Numerical Aperture Objective Lenses and Optical System Improved Objective Type Total Internal Reflection Fluorescence Microscopy [J] . Katsuyuki Abe 膜 . 2002,第5期

机译：超高值孔径物镜和光学系统改进的物镜型全内反射荧光显微镜
4. High numerical aperture objective lenses and optical system improved objective type internal reflection fluorescence microscopy [C] . Yoshihiro Kawano, Chikara Abe, Toru Kaneda, Conference on Optical Devices and Diagnostics in Materials Science 1-4 August 2000 San Diego, USA . 2000

机译：高数值孔径物镜和光学系统改进了物镜型内反射荧光显微镜
5. Quantum optical applications in spectroscopy: Investigation of entangled two-photon absorption and entangled two-photon excited fluorescence in organic dendritic systems. [D] . Suzer, Ozgun. 2010

机译：光谱学中的量子光学应用：有机树状系统中纠缠双光子吸收和纠缠双光子激发荧光的研究。
6. Femtosecond pulse train shaping improves two-photon excited fluorescence measurements [O] . Jong Kang Park, Martin C. Fischer, Kimihiro Susumu, -1

机译：飞秒脉冲序列整形可改善双光子激发的荧光测量
7. Simple fibre based dispersion management for two-photon excited fluorescence imaging through an endoscope [O] . Dominik Marti, Konstantinos Dimopoulos, Peter E. Andersen 2018

机译：通过内窥镜的双光子激发荧光成像的简单纤维的分散管理

Measurement of group delay dispersion of high numerical aperture objective lenses using two-photon excited fluorescence

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