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Importance of complex-mode collisions in the vibrational relaxation of strongly attracting molecules. The H2OHCl(ν=1) system

✍ Scribed by H.K. Shin

Publisher: Elsevier Science
Year: 1993
Tongue: English
Weight: 651 KB
Volume: 216
Category: Article
ISSN: 0009-2614
DOI: 10.1016/0009-2614(93)e1265-i

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✦ Synopsis

The deexcitation of HCl( u= 1) in the HIO-HCl interaction is studied at thermal collision energies using classical trajectory techniques. In the presence of strong attraction, the collision partners form a complex, and the initial vibrational energy flows freely among various internal modes in the complex. When the complex redissociates, the major portion of the energy is found to localize in the rotational motion of HCl. This study establishes the occurrence of vibrational relaxation in complex-mode collisions and the main energy transfer pathway to be vibration-to-rotation in the complex. Energy transfer is found to be inefficient in direct-mode collisions.

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✍ H.K. Shin 📂 Article 📅 1994 🏛 Elsevier Science 🌐 English ⚖ 515 KB

The relaxation of HCI(v) in H20-HCI collisions for v= 1-10 is studied using classical trajectory techniques at thermal collision energies. In the presence of strong attraction, the collision partners form a complex, in which intramolecular energy transfer takes place efficiently. For HC1 (v= 0-3 ) m