EFFICIENT SUPER ENERGY TRANSFER COLLISIONS THROUGH REACTIVE-COMPLEX FORMATION: H + SO2

Smith, Jonathan M.

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https://hdl.handle.net/2142/79400 Copy

Description

Title

EFFICIENT SUPER ENERGY TRANSFER COLLISIONS THROUGH REACTIVE-COMPLEX FORMATION: H + SO2

Author(s)

Smith, Jonathan M.

Contributor(s)

• Dai, HAI-LUNG
• Ma, Jianqiang
• Wilhelm, Michael J.

Issue Date

23-Jun-15

Keyword(s)

Dynamics/Kinetics/Ultrafast

Date of Ingest

2016-01-05T20:02:04Z

Abstract

Translational-to-vibrational energy transfer (ET) from a hyperthermal H atom to ambient SO$_{2}$ was characterized using time-resolved Fourier transform infrared emission spectroscopy. Vibrational excitation of SO$_{2}$, following collisions with H atoms containing 59 kcal/mol of kinetic energy, generated from the 193 nm photolysis of HBr, is detected in two distinct energy distributions: one with excitation predominantly at the fundamental vibrational levels is attributable to classical impulsive collisions, while the other, accounting for 80% of the excited SO$_{2}$ with vibrational energy as high as 14,000 wn, is proposed to arise from the formation of a transient reactive-complex during the collision. The cross-section for this super ET collision is determined to be 0.53$pm$0.05 AA$^{2}$, or roughly 2% of all hard sphere collisions. This observation reveals that in collisions between a hyperthermal atom and an ambient molecule, for which a reactive-complex exists on the potential energy surface, a large quantity of translational energy can be transferred to the molecule with high efficiency.

Publisher

International Symposium on Molecular Spectroscopy

Type of Resource

text

Genre of Resource

Conference Paper / Presentation

Language

English

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http://hdl.handle.net/2142/79400

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