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首页> 外文期刊>Russian journal of physical chemistry, B. >Variation of potential energy surface height and bound state depth induced by laser phase along the reaction path in atom-molecule reactions: Application to Li + CH4 -> LiH + CH3
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Variation of potential energy surface height and bound state depth induced by laser phase along the reaction path in atom-molecule reactions: Application to Li + CH4 -> LiH + CH3

机译:激光沿原子分子反应中的激光相诱导的潜在能量表面高度和结合状态深度的变化:施用对Li + CH4 - > LiH + CH3

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摘要

Laser atom-molecule reaction interaction through polarizability and dipole moment contribution leads to potential energy surface barrier reshaping and bound states along the reaction path. The polarizability is maximum in the transition state. We will show here by using gauge representation (electric field gauge) for wave length lambda = 20.6 mu m, intensity I = 1 x 10(12) W/cm(2), I = 5 x 10(12) W/cm(2), I = 1 x 10(13) W/cm(2), I = 3 x 10(13) W/cm(2), that we can create laser induced potential energy surface barrier reshaping in the transition state region (-1-0.5 a. u.). We illustrate such effects for the LiH + CH3 a dagger" Li + CH4 reaction with a barrier using ab-initio methods for calculating the reaction path, polarizability and dipole moment contribution of the atom-molecule reaction.
机译:激光原子分子反应通过极化性和偶极力矩贡献相互作用导致沿反应路径的潜在能量表面屏障重塑和结合状态。 过渡状态最大的极化性。 我们将通过使用仪表表示(电磁场表)来显示波长Lambda =20.6μm,强度I = 1×10(12)w / cm(2),i = 5 x 10(12)w / cm( 2),I = 1×10(13)W / cm(2),I = 3×10(13)W / cm(2),即我们可以在过渡状态区域中产生激光感应能量表面屏障重塑( -1-0.5 au)。 我们用AB-Initio方法说明了LiH + CH3 A匕首匕首术的这种效果,用于计算反应路径,极化性和偶极矩对原子分子反应的贡献。

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