Among the key techniques for holographic memory, the multiplexing schemes are the most important ones, because they allow us to efficiently make use of the huge capacity potential of volume storage. Beside the Bragg condition in a volume hologram, polarization multiplexing is another possibility, which makes use of the polarization state light waves in a polarization-sensitive medium. In recent years, we found that the photo-induced anisotropic in PQ／PMMA can provide the possibility for recording polarization hologram. In these thesis, we use vectorial coupled mode theory to analyze the holographic reconstruction on the polarization states of writing and reading beams. Theory and experimental results shows in the small angle approximation, for the orthogonal circular polarization state polarization holograms, if the polarization state of reading beam the same as the reference beam, the polarization state of diffracted beam the same as the signal beam. If the polarization state of reading beam is orthogonally polarized with respect to the reference beam, there will be no diffraction. For the orthogonal linear polarization holograms, if the polarization state of reading beam the same as the reference beam, the diffracted beam the same as the signal beam. If the polarization state of reading beam is rotated by 90°, the polarization of the diffracted beam will follow the rotation by 90°. For the intensity holograms, the polarization state of diffracted beam is the same as the reading beam. Finally, because the circularly polarized type possesses better dynamic range (M#=1.818) and material sensitivity (S=0.18cm2/J), and the performance is comparable to that of the intensity hologram. Thus we use circular polarization to design a data storage system, in which polarization multiplexing is introduced into a shift multiplexing scheme. Besides, we use Born Approximation to derive the shift-multiplexing spacing, developing the higher storage capacity of system.