Abstract
The Z-scan analysis technique has been developed to permit characterization of nonlinear refractive indices and nonlinear absorption of non-Gaussian laser beams by a numerical approach. The new approach is based on a mode expansion of the electric field of the laser beam into Gaussian–Laguerre or Gaussian–Hermite modes. The individual modes are propagated within the nonlinear sample under the influence of the intensity-dependent phase shifts. The resulting electric field at the exit plane is expanded as a new sum of Gaussian–Laguerre or Gaussian–Hermite modes. From the final mode expansion the field distribution at the detector plane is calculated. The method also makes it possible to simulate a variety of complex optical limiting devices, such as stacks of samples with different material parameters and thick samples with a variation of material parameters along the axis. A series of test simulations is presented and compared with experimental Z-scan data of solutions of substituted phthalocyanine molecules.
© 1998 Optical Society of America
Full Article | PDF ArticleMore Like This
Baoli Yao, Liyong Ren, and Xun Hou
J. Opt. Soc. Am. B 20(6) 1290-1294 (2003)
G. Tsigaridas, M. Fakis, I. Polyzos, M. Tsibouri, P. Persephonis, and V. Giannetas
J. Opt. Soc. Am. B 20(4) 670-676 (2003)
Ricardo Elgul Samad and Nilson Dias Vieira
J. Opt. Soc. Am. B 15(11) 2742-2747 (1998)