报道用偏振光谱对频域存储有机材料ＴＨＰ／ＰＭＭＡ进行持久性光谱烧孔，获得了一般方法难以得到的４００％以上孔深的各向异性孔。着重讨论固体偏振光谱烧孔理论及快速成孔机理，并在实验上观察到各向异性成孔动力学过程，理论和实验上得到很好的拟合。展示了偏振光谱烧孔技术在频域光存储和固体高分辨光谱应用的良好前景。 It is reported that permanent spectrum hole burning is performed on the THP / PMMA organic material stored in the frequency domain by polarized spectrum, and anisotropic holes with a depth of 400% or more which is difficult to be obtained by a general method are obtained. Emphatically discusses the hole burning theory of solid polarization spectroscopy and the mechanism of rapid pore formation. The anisotropic pore forming dynamics process is observed experimentally, and the theoretical and experimental results are well fitted. The good prospect of the application of polarization hole burning technology in frequency domain optical storage and solid high resolution spectroscopy is demonstrated.