Supporting Information for a superconvergent representation of the Gersten-Nitzan and Ford-Weber nonradiative rates * Fluorescence * Quenching * quantum dots * metal nanoparticles

Supporting Information for my article

A superconvergent representation of the Gersten-Nitzan and Ford-Weber nonradiative rates

J. Phys. Chem. C 115(40), 19546-19556 (2011)

Fortran F77 code gn.f used to derive the data sets for Figures of my article [1].

Converged data Rnrl612r10l500R.dat obtained with l_max=500 to derive the relative data sets for Fig. 2 of my article [1].

Converged data Cnrl340r100l500f.dat obtained with l_max=500 to derive the relative data sets for Fig. 3 of my article [1].

A data set Coefasmp.txt to compare the respective analytic terms on the left hand sides of eqs 55-57 with their short-distance asymptotic given by the right hand sides of eqs 55-57 of my article [1].

The Origin project Convr10l612.OPJ for Fig. 2 of my article [1].

The Origin project Convr100l340.OPJ for Fig. 3 of my article [1].

The Origin project gnnrra10l612.OPJ for Fig. 4 of my article [1].

The Origin project gnnrrd1l612.OPJ for Fig. 5 of my article [1].

The Origin project GNnrl340.OPJ for Fig. 6 of my article [1].

If you wonder that there is a rather strong deviation from the flat-surface d(-3) asymptotic, note that the astronauts flying on a low orbit at the height of cca 200 km** (or cca 3% of the Earth radius) above the Earth surface do not see either a flat Earth surface

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Alexander Moroz, last updated August 29, 2011