"Classical decay rates for molecules in the presence of a spherical surface: A complete treatment" by Youngsik Kim

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Classical decay rates for molecules in the presence of a spherical surface: A complete treatment

Surface Science (1988)

Youngsik Kim, Iowa State University
P.T. Leung
Thomas F George, University of Missouri-St. Louis

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Abstract

A comprehensive treatment of the classical decay rates for a molecule in the vicinity of a spherical surface is presented through the application of the work of van der Pol and Bremmer and that of Fock. This theory takes full advantage of the Hertz vector formalism, which is mathematically simpler than the widely-adapted Lorenz-Mie approach which uses the complicated vector harmonic expansions. Results are obtained for both radiative and nonradiative transfer when the molecule is located outside or inside the surface. Numerical results are given for the cases of a surface, cavity and “aerosol”, and comparison with other works is made.

Disciplines

Chemistry

Publication Date

1988

DOI

10.1016/0039-6028(88)90776-5

Citation Information

Youngsik Kim, P.T. Leung and Thomas F George. "Classical decay rates for molecules in the presence of a spherical surface: A complete treatment" Surface Science Vol. 195 Iss. 1-2 (1988) p. 1 - 14
Available at: http://works.bepress.com/thomas-george/263/