Polaronic Enhancement of Second-Harmonic Generation in Lithium Niobate
Abstract
Density-functional theory within a Berry-phase formulation of the dynamical polarization is used to determine the second-order susceptibility (2) of lithium niobate (LiNbO3). Defect trapped polarons and bipolarons are found to strongly enhance the nonlinear susceptibility of the material, in particular if localized at NbV-VLi defect pairs. This is essentially a consequence of the polaronic excitation resulting in relaxation-induced gap states. The occupation of these levels leads to strongly enhanced (2) coefficients and allows for the spatial and transient modification of the second-harmonic generation of macroscopic samples.
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