Angular selection of products by use of saturated-absorption techniques in the Cs(7P)+H2→CsH+H reaction

Laser Chemistry Pub Date : 1900-01-01 DOI:10.1155/1990/79301

J. l’Hermite, G. Rahmat, R. Vetter

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引用次数: 5

Abstract

The Cs( 7 P)+H 2 → CsH + H reaction is studied in a crossed-beam experiment with laser-induced fluorescence detection of CsH products. The usual flux ( ≈ 50 mW / mm 2 ) which is delivered by the C.W. tunable dye laser used in the experiment is enough to saturate the absorption by CsH products. Then, by crossing twice the laser beam through the collision volume (counterpropagating beams), one realizes the conditions of saturated-absorption experiments: when the laser frequency is tuned to a resonance frequency of CsH products, a defect to absorption occurs for these products which scatter in the collision plane and a "saturation dip" appears at the center of the corresponding fluorescence profile. Application of this technique to crossed-beam experiments can lead to the selection of product molecules which scatter in any definite plane. A different geometry of the laser beams (bent beams) is proposed to select molecules which scatter in any definite direction: it could be applied to detect an asymmetry in the scattering of the products with respect to the collision axis, when a particular preparation of the reagents is realized.

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Cs(7P)+H2→CsH+H反应中饱和吸收技术的角度选择

用激光诱导荧光检测CsH产物的交叉束实验研究了Cs(7p)+ h2→CsH +H反应。实验中使用的cw可调谐染料激光器提供的通常通量(≈50 mW / mm2)足以使CsH产品的吸收饱和。然后，通过两倍的激光束穿过碰撞体积(反向传播光束)，实现饱和吸收实验的条件:当激光频率调谐到CsH产物的共振频率时，这些产物在碰撞平面上散射，在相应的荧光剖面中心出现“饱和dip”。将该技术应用于交叉光束实验，可以选择在任意平面上散射的产物分子。提出了一种不同的激光束几何形状(弯曲光束)来选择在任何确定方向上散射的分子:当实现特定的试剂制备时，它可以用于检测产物相对于碰撞轴散射的不对称性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Laser Chemistry

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