Praseodymium doped glasses find vari

Praseodymium doped glasses find variety of applications such as UV–vis–NIR
optical amplifiers, up-converters and other electro optic devices [10–12]. Among various rare earth ions, Pr3þ ion has a number of strong absorption bands where the pumping sources are easily available. Among various transitions, 3H4-3F4, 3P2, and 1D2 are found to be hypersensitive; the transition 3H4-3F4 is hypersensitive due to quadrupole selection rules whereas the hypersensitiveness of the other two transitions, 3H4-3P2, 1D2 is due to the influence of ligand environments [13]. The emission spectrum exhibits many fluorescent lines, blue and green in the visible region. The emission spectrum of Pr3þ ion is also well studied in a number of glasses like tellurite tungstate, tellurofluoro phosphate glasses, etc., [14,15]. Among various emission transitions the two transitions 3P0-3H5, 3F3 are found to exhibit significant intensities due to J–J mixing. Further, when these glasses are mixed with different network modifying ions, we may expect the structural modifications and local field variations around Pr3þ ion; such changes may have strong bearing on various luminescence transitions of Pr3þ ions in Li2O–MO–B2O3 glasses (where MO stands for ZnO, CaO and CdO). Thus the objective of the present investigation is to characterize the optical absorption and the photoluminescence spectra of Pr3þ ions in Li2O–B2O3 glasses mixed with three different modifier oxides viz., ZnO, CaO and CdO; the study is further intended to throw some light on the relationship between the structural modifications and luminescence efficiencies with the aid of IR spectral data. Study on thermoluminescence properties of these