Theory of vibrational equilibria and pooling at solid-diatom interfaces
- Creators
- Boney, E. T. D.
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Marcus, R. A.
Abstract
In the present paper we provide a statistical theory for the vibrational pooling and fluorescence time dependence observed in infrared laser excitation of CO on an NaCl surface. The pooling is seen in experiment and in computer simulations. In the theory, we assume a rapid equilibration of the quanta in the substrate and minimize the free energy subject to the constraint at any time t of a fixed number of vibrational quanta N(t). At low incident intensity, the distribution is limited to one-quantum exchanges with the solid and the Debye frequency of the solid plays a key role in limiting the range of this one-quantum domain. The resulting inverted vibrational equilibrium population depends only on fundamental parameters of the oscillator (ω_e and ω_eχ_e ) and the surface (ω_D and T). The relation to the Treanor gas phase treatment is discussed. Unlike the solid phase system, the gas phase system has no Debye-constraining maximum.
Additional Information
© 2013 AIP Publishing LLC. Received 16 July 2013; accepted 9 September 2013; published online 24 September 2013. We thank the ARO, ONR, and NSF for the support of this research, Dr. Nima Ghaderi for useful discussions, and the reviewers for their helpful comments.Attached Files
Published - 1.4821991.pdf
Erratum - 1.4825108.pdf
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Additional details
- Eprint ID
- 42167
- Resolver ID
- CaltechAUTHORS:20131101-074844947
- Army Research Office (ARO)
- Office of Naval Research (ONR)
- NSF
- Created
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2013-11-01Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field