We have correlated the experimentally measured intensities of the solution absorption spectra of Pr3+, Nd3+, Er3+, Tm3+, and Yb3+in three different solvents with a theoretical expression derived by Judd. The expression,Pequals;Sgr;lgr;Tlgr;sgr;lpar;fNpsgr;JVerbar;cup;lpar;lgr;rpar;Verbar;fNpsgr;prime;Jprime;rpar;2lgr;equals;2,4,6is derived from a theory in which the ligandhyphen;field interactions with the central 3+ ion cause a mixing of higher configurations of opposite parity into thefNconfiguration and gives rise to induced electrichyphen;dipole transitions. A prerequisite for the intensity calculations is the computation of complete intermediate coupling eigenvectors for the energy levels investigated. Other possible mechanisms such as magnetichyphen;dipole and electrichyphen;quadrupole transitions are considered. The oscillator strengths of important magnetichyphen;dipole transitions are tabulated.The results give the first experimental verification of the ability of the theory to account for large changes in certain bands of the same lanthanide observed in different solvents. Conclusions are drawn respecting theTlgr;'s obtained in a given medium for all the lanthanides studied, and also for those obtained for a given lanthanide in different media. TheJdependence of theTlgr;'s is removed to facilitate their intercomparison, and the resulting parameters are tabulated. TheTlgr;'s for Yb3+are obtained by an extrapolation of the values computed for Tm3+and Er3+. The nature of the model required by the theory is discussed.
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