List references from the University of Geneva Physical Chemistry reference database

The 4d10â†’4d95s1 transitions of the Ag+ ion in single crystals of NaF were investigated by one- and two-photon spectroscopy and luminescence experiments. The one-photon absorption spectrum extends from 238 to below 180 nm. At low temperature, several bands show resolved fine structure, but compared to NaF:Cu+, there is much less, and the lines are broader. The Jahnâ€“Teller effect is much larger in Ag+ than in Cu+ and has been identified in three of the excited states. Trapping in Jahnâ€“Teller minima is shown to change the emission kinetics radically compared to Cu+. The off-center force from the d9p states has much less effect on Ag+ than on Cu+. All of the evidence shows that Ag+ is more strongly coupled to the lattice than is Cu+.

Optical spectroscopy of the Ag⁺ ion in NaF: Experimental results and analysis of manifestations of the Jahn-Teller effect H. Bill, G.J. Hollingsworth, D.S. McClure, B. Moine and C. Pedrini Journal of Chemical Physics, 109 (17) (1998), p7328-7337 DOI:10.1063/1.477362 \| unige:2948 \| Abstract \| Article PDF \| Article PS (gzipped)
The 4d10â†’4d95s1 transitions of the Ag+ ion in single crystals of NaF were investigated by one- and two-photon spectroscopy and luminescence experiments. The one-photon absorption spectrum extends from 238 to below 180 nm. At low temperature, several bands show resolved fine structure, but compared to NaF:Cu+, there is much less, and the lines are broader. The Jahnâ€“Teller effect is much larger in Ag+ than in Cu+ and has been identified in three of the excited states. Trapping in Jahnâ€“Teller minima is shown to change the emission kinetics radically compared to Cu+. The off-center force from the d9p states has much less effect on Ag+ than on Cu+. All of the evidence shows that Ag+ is more strongly coupled to the lattice than is Cu+.

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