The Small Molecule Limit of Infrared Multiphoton Dissociation: Collisional Effects in D2CO

Laser Chemistry Pub Date : 1900-01-01 DOI:10.1155/LC.8.169
M. Berman, C. Moore
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Abstract

The infrared multiphoton excitation of D2CO was studied by monitoring infrared fluorescence from stretching modes of D2CO following excitation in the bending modes. The dependence of the infrared multiphoton dissociation yield on laser wavelength, on laser power, and on reactant and foreign gas pressures was also studied. Severe bottlenecks to excitation through the first few steps are found. Vibration-to-vibration transfer of a bending quantum from one excited D2CO molecule to another is a crucial step. Collision-induced changes of rotational quantum number must also play an important role.
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红外多光子解离的小分子极限:D2CO中的碰撞效应
通过监测D2CO弯曲激发后拉伸模式下的红外荧光,研究了D2CO的红外多光子激发。研究了红外多光子解离产率与激光波长、激光功率、反应物压力和外界气体压力的关系。通过前几个步骤发现了严重的激励瓶颈。弯曲量子从一个受激D2CO分子到另一个受激D2CO分子的振动-振动传递是一个关键步骤。碰撞引起的转动量子数的变化也必须发挥重要作用。
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Laser Chemistry
Laser Chemistry
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