Shah, Rajiv R.Kim, Dae M.Rabson, Thomas A.Tittel, Frank K.2007-10-312007-10-311976-06-202003-07-18R. R. Shah, D. M. Kim, T. A. Rabson and F. K. Tittel, "Characterization of Iron Doped Lithium Niobate for Holographic Storage Applications," <i>Rice University ECE Technical Report,</i> no. 7606, 1976.https://hdl.handle.net/1911/20373Tech ReportA detailed study of eight systematically chosen Fe:LiNb0<sub>3</sub> crystals is presented. Correlation between the photorefractive sensitivity and various chemical properties of Fe:LiNb0<sub>3</sub> is investigated in order to ascertain optimum performance of Fe:LiNb0<sub>3</sub> crystals in holographic storage and display applications. Concentrations of Fe<sup>2+</sup> and Fe<sup>3+</sup> ions have been determined from optical and EPR spectra while impurities have been detected from x-ray emission and infrared spectra. Particular emphasis is placed on investigating the dependence on Fe<sup>3+</sup> ion concentrations of the photorefractive sensitivity. The photorefractive sensitivity is shown to depend primarily on the concentration of Fe<sup>2+</sup> ions in Fe:LiNb0<sub>3</sub>. This fact seems to suggest that Fe<sup>2+</sup> ions are the impurity centers responsible for the photorefractive effect in Fe:LiNb0<sub>3</sub>. Spectral dependence of the photorefractive sensitivity and its modification due to oxygen annealing are also reported. Our results indicate that an unannealed Fe:LiNb0<sub>3</sub> crystal containing 0.05 mole % Fe with 20-25% of the ions in the Fe<sup>2+</sup> state and the remainder in the Fe<sup>3+</sup> state possesses the most favorable photorefractive sensitivity.engholographiclithium niobateCharacterization of Iron Doped Lithium Niobate for Holographic Storage ApplicationsReportholographiclithium niobate