Diffraction by a thick transmission phase grating being illuminated by a plane wave at the first, second and third Bragg angles is analyzed using the rigorous coupled-wave theory for the materials having a nonlinear response to the holographic illumination. It is shown that in the case of nonlinear holographic recording the two-wave approximation can be applied with the use of the effective value of the amplitudes of the refractive index modulation (n(1ef), n(2ef), and n(3ef)). The applicability conditions of such approximation are defined. The analytical dependencies of n(1ef), n(2ef), and n(3ef) on the amplitudes of the first, second and third harmonics of spatial frequency of the refraction index modulation amplitude n(1), n(2) and n(3) are derived and the criteria of their applicability are established here. The resulting expressions for the diffraction efficiencies are given for readout at three Bragg angles. The results of analytical and numerical methods are compared. The obtained formulas are used for the calculation of n(1), n(2) and n(3) of the holographic gratings generated in the photopolymer material.

• 出版日期2008