IR laser chemistry (mainly plasma chemistry) of gaseous aromatic hydrocarbons was studied with a pulsed TEA-CO_2 laser.
本文研究了七种芳香族碳氢化合物的气相IR激光化学,主要是等离子体化学。实验说明。
The informational source is also summed up and concluded, thus providing convenience and basis for the further study of laser chemistry, information storage and retrieval.
对有关情报源进行了归纳和总结,为激光化学的深入研究和文献检索提供了方便和依据。
For example, imagine the wonder at detecting spectral features that cannot not explained by complex organic chemistry, like laser emissions.
比如,用激光探测光谱特性,这些特性是无法用复杂的有机化学来解释的。
The Chemistry and Camera instrument, seen above before a recent test firing at Los Alamos National Lab in New Mexico, USES a pulsed laser beam to vaporize a pinhead-size piece of material.
图片上是这件化学分析及摄像仪器在新墨西哥州洛斯阿拉莫斯国家实验室进行点火测试前拍摄的。
A review is presented on the progresses of laser photothermal spectroscopy and its applications in analytical chemistry.
本文评述了激光光热光谱法及其在分析化学中应用的近期进展。
They are made of organic matter: the same rules, the same laws of chemistry that apply to what makes this laser glow green apply to what makes these photodetectors work.
而是由有机物制作的,同样的规律,它与应用于让激光的光芒变绿,以及使这些光电探测器工作,的化学是一样的规律。
Tunable diode laser absorption spectroscopy has been applied in the fields of atmospheric chemistry and monitoring pollutant gases as a new method of measuring trace gases.
红外可调谐二极管激光吸收光谱技术作为新的痕量气体监测分析方法,在大气化学研究和污染气体监测中得到了应用。
There is no question that the laser will continue to revolutionize the field of chemistry.
毫无疑问,激光将继续使化学领域发生变革。
Due to ultrashort laser pulse possesses ultrashort duration and superhigh peak power, it is widely applied to physics, chemistry, biology, and other fields.
超短脉冲激光具有超短的时间间隔和超强的峰值功率,它在物理、化学、生物等学科领域具有广阔的应用前景。
This article discusses the femto-chemistry, because it involves femtosecond laser pulses, and its research or monitor into chemical processes of transition state and intermediate.
讨论由飞秒激光脉冲所构成的飞秒化学,及其对化学反应过渡状态或中间体的研究和检测。
As an important tool in physics, chemistry and life science studies, the ultrashort pulsed laser sources are on the edging of optical technology.
超短脉冲激光光源因其在物理、化学以及生命科学研究中的重要作用,一直是一个前沿性的课题。
Researches on ESPTS and application of ESPTS in analytical chemistry and laser production were reviewed. 27 references are quoted.
本文对它在分析化学和激光中的应用以及有关研究进行了综述。引用文献27篇。
Researches on ESPTS and application of ESPTS in analytical chemistry and laser production were reviewed. 27 references are quoted.
本文对它在分析化学和激光中的应用以及有关研究进行了综述。引用文献27篇。
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