栅栏
衍射
极限(数学)
光学
奈奎斯特-香农抽样定理
奈奎斯特频率
衍射光栅
空间频率
计算机科学
物理
电信
数学
带宽(计算)
计算机视觉
数学分析
作者
Shang Gao,Marı́a del Mar Sánchez-López,Ignacio Moreno
标识
DOI:10.1016/j.optlaseng.2024.108628
摘要
• A complete analysis of phase diffraction gratings displayed onto a spatial light modulator (SLM) at the spatial resolution limit (Nyquist limit) is provided based on parameters like the pixel size, the fill factor and the phase modulation. • A convolutional approach is adopted that probes very useful to gain physical insight of the different contributions to the diffraction orders. As a result, we provide analytical relations of the diffraction orders intensity as a function of the phase modulation. • A model for the fringing affect affecting the phase gratings really displayed by the SLM is applied that successfully fits the experimental data and shows the smooth of the generated phase profile. • The conditions to obtain a triplicator phase grating (a diffraction grating producing three equally intense zero and ±1 orders) that operates at the SLM resolution limit are presented. In this work we analyze diffraction gratings displayed on a pixelated spatial light modulator (SLM) at its spatial resolution limit (Nyquist limit) i.e., with largest diffraction angle, where the binary phase profile is the only alternative. Their implementation is influenced by the effect of a sinc envelope and the multiple replicas of the diffraction pattern that arise from the SLM pixelation, where the fill factor plays an essential role. We use the Fourier transform theory to analyze the binary phase grating in a pixelated device in terms of the pixel size, fill factor and phase difference between the two levels in the grating. This convolutional approach probes very useful to gain physical insight of the different contributions to the diffraction orders, and analytical expressions for the complex amplitude coefficients and intensities are obtained. Experimental verification is provided by encoding binary phase triplicator gratings with different periods on a high-resolution liquid-crystal on silicon SLM. The effect of the device pixelation and pixel crosstalk on the diffraction efficiency and on the conditions to obtain a Nyquist triplicator phase grating are studied. These results can be interesting for applications requiring programmable and large beam steering angles.
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