Title :
Photorefractive surface grating in BaTiO3
Author :
Shandarov, S.M. ; Burimov, N.I.
Abstract :
We present the theoretical model of a photorefractive surface grating in Z-cut of BaTiO3 crystal at steady state. Taking the crystal surface to be traction free we consider two cases: (a) dielectric boundary and (b) short-circuited (metallized) boundary. The analysis shows that the photorefractive grating near the crystal boundary has a complex structure. It can be shown that the crystal boundary and the electric boundary conditions have a large influence on the changes in the dielectric tensor induced by a photorefractive grating. Near the crystal surfaces, the changes in the dielectric tensor are different from their volume values, it gives rise to diffraction processes which are forbidden for a bulk grating. One should take elastic contribution into account when calculating the gain expected in photorefractive waveguides or in any case in which light beams travel near the surface of a photorefractive crystal
Keywords :
barium compounds; diffraction gratings; elastic deformation; light refraction; photorefractive materials; titanium compounds; BaTiO3; Z-cut; bulk grating; complex structure; crystal boundary; crystal surfaces; dielectric boundary; dielectric tensor; diffraction processes; elastic contribution; electric boundary conditions; light beams; metallized boundary; photorefractive surface grating; short-circuited boundary; steady state; Equations; Gratings; Materials science and technology; Optical refraction; Optical saturation; Photorefractive effect; Photorefractive materials; Stimulated emission; Stress; Surface topography;
Conference_Titel :
Modern Techniques and Technology, 2000. MTT 2000. Proceedings of the VI International Scientific and Practical Conference of Students, Post-graduates and Young Scientists
Conference_Location :
Tomsk
Print_ISBN :
0-7803-5789-2
DOI :
10.1109/SPCMTT.2000.896099
