Abstract EN:

In this thesis we present results concerning the propagation of an Airy beam in a photorefractive crystal. The Airy beam is a multi-lobed beam that keeps the same shape while propagating along a curved trajectory. It can also regenerate its profile while propagating if it is partially blocked. The photorefractive crystal is a nonlinear media. Light can imprint its intensity distribution inside the crystal and a light beam can create its own waveguide. The Airy beam propagation is changed When going through the crystal. The parabolic trajectory changes partially or completely to a solitary straight beam. Furthermore, this propagation behavior is imprinted inside the crystal and this creates a complex waveguiding structure. By changing the Airy beam parameters and the nonlinear response of the crystal, different waveguiding configurations can be obtained. We can therefore create and control an all-optical routing device with potential applications in the field of telecommunications.