<title>Multiwave mixing and spatial solitons in photorefractive Bi<formula><inf><roman>12</roman></inf></formula>TiO<formula><inf><roman>20</roman></inf></formula> crystals</title>

Abstract

The energy efficiency of multiwave mixing and geometrical parameters of spatial solitons in photorefractive Bi₁₂TiO₂₀ crystals in conditions of pulsed and continuous-wave laser excitation have been studied experimentally. It has been found that with the use of 532 nm-wavelength laser pulses switching of the photorefractive nonlinearity mechanism requires a time interval in excess of 20 - 50 ns. And saturation is observed when the duration is over 100 ns. The formation dynamics of spatial solitons in photorefractive Bi₁₂TiO₂₀ crystals has been analyzed using radiation of a continuous-wave He-Ne laser. It has been determined that the formation conditions and dynamics are influenced by a number of factors including the radiation input geometry of a crystal, power of the light beam, orientation of its polarization relative to the crystal axes, applied electric field and its direction.