Quantum state-resolved collision relaxation of highly vibrationally excited SO2.

Quantum state-resolved collision relaxation of highly vibrationally excited SO2. Research Abstract Details 

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Quantum state-resolved collision relaxation of highly vibrationally excited SO2. Abstract Text:

Min Zhang,Hai-Lung Dai,

Collision depopulation cross sections of 13 single, highly vibrationally excited levels with 45,000 cm(-1) energy in the electronic ground state of SO(2) in collision with CO in a supersonic jet have been measured. The measurements for these single highly excited quantum states are conducted through pressure dependence of the decay of the fluorescence quantum beat resulted from their coupling with the rovibronic levels in the optically allowed transitions to the (140), (210), and (132) C(1)B(2) levels. The relaxation cross sections of these highly excited states, each with well-defined energy and symmetry, range from 27 to 187 A(2) with an average of 71 A(2). This average cross section is much larger than the hard sphere cross section of 48 A(2). The relaxation cross section is also found to be larger for the quantum states with a larger matrix element in coupling with the "bright" electronically excited level. Both observations suggest a substantial contribution from long range interactions in collision relaxation of highly excited molecules.

Quantum state-resolved collision relaxation of highly vibrationally excited SO2. Publishing Authors By Initials

M Zhang,HL Dai,

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Quantum state-resolved collision relaxation of highly vibrationally excited SO2. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: The journal of physical chemistry. A

VOLUME: 111

Page Numbers: 9632-9

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ISSN: 1089-5639

DAY: 8

MONTH: 09

YEAR: 2007

Quantum state-resolved collision relaxation of highly vibrationally excited SO2. Information

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LANGUAGE: eng

NlmUniqueID: 9890903

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Grant and Affiliation Information for Quantum state-resolved collision relaxation of highly vibrationally excited SO2.

AFFILIATION: Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6323, USA.

Country: United States

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MEDLINETA: J Phys Chem A

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