Heterodyne detection of the complete electric field of femtosecond four-wave mixing signals

Gallagher SM.; Hybl TD.; Landin BL.; Rajaram B.; Jonas DM.; Albrecht AW.

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Heterodyne detection of the complete electric field of femtosecond four-wave mixing signals

机译：飞秒四波混合信号完整电场的外差检测

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A novel optimized heterodyne method that recovers the complete electric field of any four-wave mixing signal at its point of origin is demonstrated. A tracer pulse is sent along the signal path and characterized at the sample by frequency-resolved optical gating. Spectral interferometry is used to determine the phase difference between the tracer and a reference pulse, the absorptive change in tracer phase in the sample, and the reference-signal phase difference. Together, these measurements allow calculation of the signal phase at the sample. The phase of three pulse-scattering signals from solutions of the infrared dye IR 144 in methanol determines the absolute signal-emission time within 0.5 fs. (C) 1998 Optical Society of America [S0740-3224(98)01108-4] OCIS codes: 320.7100, 190.4830, 300.6310. [References: 44]

机译：演示了一种新颖的优化外差方法，该方法可以在其原始点恢复任何四波混合信号的完整电场。示踪脉冲沿着信号路径发送，并通过频率分辨光学选通在样本上进行表征。频谱干涉法用于确定示踪剂与参考脉冲之间的相位差，样品中示踪剂相位的吸收率变化以及参考信号相位差。这些测量一起可以计算出样品处的信号相位。来自红外染料IR 144在甲醇中的溶液的三个脉冲散射信号的相位决定了绝对信号发射时间在0.5 fs之内。（C）1998年美国光学学会[S0740-3224（98）01108-4] OCIS代码：320.7100、190.4830、300.6310。 [参考：44]

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《Journal of the Optical Society of America, B. Optical Physics》 |1998年第8期|共8页
作者
Gallagher SM.; Hybl TD.; Landin BL.; Rajaram B.; Jonas DM.; Albrecht AW.;
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正文语种 eng
中图分类光学;
关键词
Stimulated raman-scattering; Photon-echo; Spectral interferometry; Phase; Spectroscopy; Pulses; Dynamics; Liquids; Intensity;

机译：拉曼散射;光子回波;光谱干涉法;相位;光谱学;脉冲;动力学;液体;强度;

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1. Heterodyne detection of the complete electric field of femtosecond four-wave mixing signals [J] . Gallagher SM., Hybl TD., Landin BL., Journal of the Optical Society of America, B. Optical Physics . 1998,第8期

机译：飞秒四波混合信号完整电场的外差检测
2. Effect of Static Electric Field on the Beat Structures in Four-Wave Mixing Signals from Semiconductor Microcavities [J] . Suryadi, Yutaka Kadoya, Kenichi Watatani, Journal of the Physical Society of Japan . 2002,第10期

机译：静电场对半导体微腔四波混频信号拍频结构的影响
3. Numerical investigation of signal degradation due to four-wave mixing in a 21-channel 2.5-Gb/s coherent heterodyne DPSK-system [J] . Schadt D.G., Stephens T.D. Journal of Lightwave Technology . 1991,第9期

机译：在21通道2.5 Gb / s相干外差DPSK系统中由于四波混合导致信号衰减的数值研究
4. Detection of the complete electric field of femtosecond four-wave mixing signals [C] . Allison W. Albrecht, Univ. of Colorado/Boulder, Boulder, Laser Techniques for Condensed-Phase and Biological Systems . 1998

机译：飞秒四波混合信号完整电场的检测
5. Electric Field Measurements in Non-Equilibrium Electric Discharge Plasmas Using Picosecond Four-Wave Mixing. [D] . Goldberg, Benjamin M. 2015

机译：使用皮秒四波混频技术在非平衡放电等离子体中进行电场测量。
6. Diffractive optics-based heterodyne-detected four-wave mixing signals of protein motion: From protein quakes to ligand escape for myoglobin [O] . Gami Dadusc, Jennifer P. Ogilvie, Peter Schulenberg, 2001

机译：基于衍射光学的外差检测四波混频蛋白质运动的信号：从蛋白质震动到配体逃脱肌红蛋白
7. Diffractive optics-based heterodyne-detected four-wave mixing signals of protein motion: From “protein quakes” to ligand escape for myoglobin [O] . Dadusc, Gami, Ogilvie, Jennifer P., Schulenberg, Peter, 2001

机译：基于衍射光学的外差检测四波混频蛋白质运动的信号：从“蛋白质震动”到配体逃脱肌红蛋白

Heterodyne detection of the complete electric field of femtosecond four-wave mixing signals

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