Selective two-photon absorptive resonance femtosecond-laser electronic-excitation tagging velocimetry

Jiang Naibo; Halls Benjamin R.; Stauffer Hans U.; Danehy Paul M.; Gord James R.; Roy Sukesh

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Selective two-photon absorptive resonance femtosecond-laser electronic-excitation tagging velocimetry

机译：选择性双光子吸收共振飞秒激光电子激发标记测速

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Selective two-photon absorptive resonance femtosecond-laser electronic-excitation tagging (STARFLEET), a nonseeded ultrafast-laser-based velocimetry technique, is demonstrated in reactive and nonreactive flows. STARFLEET is pumped via a two-photon resonance in N-2 using 202.25 nm 100 fs light. STARFLEET greatly reduces the per-pulse energy required (30 mu J/pulse) to generate the signature FLEET emission compared to the conventional FLEET technique (1.1 mJ/pulse). This reduction in laser energy results in less energy deposited in the flow, which allows for reduced flow perturbations (reactive and nonreactive), increased thermometric accuracy, and less severe damage to materials. Velocity measurements conducted in a free jet of N-2 and in a premixed flame show good agreement with theoretical velocities, and further demonstrate the significantly less intrusive nature of STARFLEET. (C) 2016 Optical Society of America

机译：选择性两光子吸收共振飞秒激光电子激发标记（STARFLEET）是一种基于非种子超快激光的测速技术，已在反应性和非反应性流中得到了证明。使用202.25 nm 100 fs光在N-2中通过双光子共振泵浦STARFLEET。与传统的FLEET技术（1.1 mJ /脉冲）相比，STARFLEET大大降低了产生特征性FLEET发射所需的每脉冲能量（30μJ /脉冲）。激光能量的这种减少导致流中沉积的能量减少，从而减少了流的扰动（反应性和非反应性），提高了测温精度，并减轻了对材料的严重破坏。在N-2的自由射流和预混火焰中进行的速度测量显示出与理论速度的良好一致性，进一步证明了STARFLEET的侵入性显着降低。（C）2016美国眼镜学会

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《Optics Letters》 |2016年第10期|共4页
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Jiang Naibo; Halls Benjamin R.; Stauffer Hans U.; Danehy Paul M.; Gord James R.; Roy Sukesh;
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1. Selective two-photon absorptive resonance femtosecond-laser electronic-excitation tagging velocimetry [J] . Jiang Naibo, Halls Benjamin R., Stauffer Hans U., Optics Letters . 2016,第10期

机译：选择性双光子吸收共振飞秒激光电子激发标记测速
2. Femtosecond-laser electronic-excitation tagging velocimetry using a 267 nm laser [J] . Gao Qiang, Zhang Dayuan, Li Xiaofeng, Sensors and Actuators, A. Physical . 2019,第期

机译：使用267nm激光的飞秒激光电子激励标记速度计量
3. Resonance Tuning of Two-Photon Absorption Microcavities for Wavelength-Selective Pulse Monitoring [J] . T. Krug, W. H. Guo, J. ODowd, IEEE Photonics Technology Letters . 2006,第2期

机译：用于波长选择脉冲监测的双光子吸收微腔的共振调谐
4. Selective Two-Photon Absorptive Resonance Femtosecond-Laser Electronic-Excitation Tagging (STARFLEET) Velocimetry in Flow and Combustion Diagnostics [C] . Naibo Jiang, Benjamin R. Halls, Hans U. Stauffer, 32nd AIAA aerodynamic measurement technology and ground testing conference 2016 . 2016

机译：流动和燃烧诊断中的选择性双光子吸收共振飞秒激光电子激发标记（STARFLEET）测速
5. Two-Photon Excitation, Fluorescence Microscopy, and Quantitative Measurement of Two-Photon Absorption Cross Sections [D] . DeArmond, Fredrick Michael. 2017

机译：双光子励磁，荧光显微镜和两光炎吸收横截面的定量测量
6. Importance of double-resonance effects in two-photon absorption properties of Au25(SR)18– [O] . Zhongwei Hu, Lasse Jensen 2017

机译：双共振效应对Au25（SR）18的双光子吸收特性的重要性–
7. Resonance tuning of two-photon absorption microcavities for wavelength-selective pulse monitoring [O] . Krug, T., Guo, W.H., O'Dowd, J., 2009

机译：用于波长选择脉冲监测的双光子吸收微腔的共振调谐

Selective two-photon absorptive resonance femtosecond-laser electronic-excitation tagging velocimetry

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