Márquez Andrés, Iemmi Claudio, Moreno Ignacio, Campos Juan, Yzuel María
Opt Express. 2005 Mar 21;13(6):2111-9. doi: 10.1364/opex.13.002111.
In this work we present experimental evidence of an anamorphic and spatial frequency dependent phase modulation in commercially available twisted nematic liquid crystal spatial light modulators. We have found that the phase modulation depth depends on the magnitude of the local spatial frequency component along the horizontal direction. Along the vertical direction the phase modulation depth does not depend on the spatial frequency. This phenomenon is related with the electronics driving the device and in no way related to liquid crystal physics. It causes a reduction of the optical efficiency of a diffractive optical element displayed onto this type of modulator. We present an algorithm to correct this effect and more efficiently display a diffractive optical element. We apply it to the particular case of a Fresnel lens. Experimental results that confirm the improvements in the efficiency of the displayed diffractive lens are presented.
在这项工作中,我们展示了市售扭曲向列型液晶空间光调制器中存在的变形且与空间频率相关的相位调制的实验证据。我们发现,相位调制深度取决于沿水平方向的局部空间频率分量的大小。沿垂直方向,相位调制深度与空间频率无关。这种现象与驱动该器件的电子学有关,与液晶物理毫无关系。它会导致显示在这种类型调制器上的衍射光学元件的光学效率降低。我们提出了一种算法来校正这种效应,并更有效地显示衍射光学元件。我们将其应用于菲涅耳透镜的具体情况。给出了证实所显示衍射透镜效率有所提高的实验结果。