Abstract
A simple localized-bond-charge model for the calculation of nonlinear optical susceptibilities is presented. We find that there are three important contributions to the nonlinearity, namely, the bond ionicity, the difference in atomic radii of the bonded atoms, and -electron contributions. By including these effects we are able with one simple theory to accurately treat a wide variety of different types of compounds including (e.g., GaAs, GaP, InSb), (e.g., ZnS, ZnO, BeO), (e.g., CuCl, CuBr, CuI), (e.g., Si), multibond crystals [e.g., (LiGa, AgGa, CuIn, CuGa), (CdGe, CdGe, ZnGe), (AIP), also KP], highly anisotropic crystals (e.g., HgS, Se, Te), as well as ferroelectrics (e.g., LiNb, Na, LiTa).
- Received 17 August 1972
DOI:https://doi.org/10.1103/PhysRevB.7.2600
©1973 American Physical Society