The research progress of LiNbO3 powder was reviewed and several methods of producing the LiNbO3 powde, such as sol-gel method, coprecipitation method, hydrothermal method, etc were briefly summarized.

The electronic energy band structure and linear optical coefficient of LiNbO3 crystal were calculated by first-principle calculation pseudo-potential plane wave method in CASTEP package,and the nonlinear optical coefficient of LiNbO3 was calculated based on coupled Hatree-Fock(CPHF) model.

According to the electro-optical characteristics of LiNbO3 crystal,the modulation principle of the electro-optical swing modulator is analyzed.

According to the basic principle of horizontal electro-optic effect,the method of conoscopic interference pattern is presented for polarizer and analyzer polarization direction well coincided with LiNbO3 crystal x,y optical axis.

Dark decay of the optical damage in iron-doped lithium niobate crystals;

Influence of dopants on nonvolatile holographic storage in lithium niobate;

The photorefractive properties of iron doped lithium niobate with different [Li]/ [Nb]ratios were investigated.

Then the conclusions of theory were verified by the poled and dielectric breakdown experiments of LiNbO_3 and Zn:LiNbO_3 crystals.

γ irradiation was made on the LiNbO 3 crystal.

In this paper,we introduced mostly the growth and measure method of optics-grade and large diameter lithium niobate crystals.

With the development of photoelectron technology, the role of lithium niobate crystal is more and more important.

The microscopic structure of lithium niobate crystals is deeply studied by investigating geometric characteristics of the constituent structural units or atomic groups.