Abstract
The self-trapped exciton (STE) luminescence of mixed K 1- x Rb x I crystals has been investigated by using D 2 lamp and synchrotron radiation as light sources at 11 K. The results show that the σ emission band is kept well over the whole composition range, and its decay time changes continuously from 2.0 ns in KI to 4.1 ns in RbI. It is found that the virtual-crystal model is quite valid for the singlet STE state which is responsible for the σ luminescence. The π emission band of KI is closely connected to the E x band, not the π band, of RbI with increasing x . The π band of RbI disappears in the region x <0.4. These facts are compatible with a recent theoretical model indicating that at equilibrium the lowest triplet STE is situated off-center. A brief discussion of the exciton relaxation into STE states in alkali halides is presented.
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