Abstract

The fine structure of the spectrum of Ni2+ in KNiF3 and KMgF3:Ni has been analyzed in terms of the spin—orbit splitting and vibrational intervals using a four-parameter crystal-field approach. The parameters obtained from the analysis differ from the free-ion values by relatively small amounts, but the differences are not interpretable physically because configuration interaction has been neglected. We find that Dq=698 cm—1, λ=—(305–320) cm—1, F2=1520 cm—1, F4=114 cm—1 (F4/F2=0.675). For the free ion we find that λ=—334 cm—1, F2=1622 cm—1, and F4=116 cm—1 by fitting the published values for the 3d8 energy levels in our analysis with Dq=0. We find that the effects of exchange interaction on the excited state energy levels is small, and that no Jahn—Teller splitting is observed or expected for this crystal. An explanation is offered for temperature changes in the 3A2g→1Eg transition involving a breakdown of Born—Oppenheimer separability.

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