Improved playback uniformity of random-phase free holograms by pixel separation method

IF 0.5 Q4 OPTICS

Photonics Letters of Poland Pub Date : 2021-12-30 DOI:10.4302/plp.v13i4.1120

M. Makowski, T. Shimobaba

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引用次数: 0

Abstract

Random-phase free computer-generated holograms offer excellent quality of virtually noise-free playback of low-frequency images, but have limited efficiency in the case of highly contrast binary images with dominant high spatial frequencies. Introduction of weak random phase allows the partial suppression of this problem, but causes strong noise in the outcome. Here we present the influence of pixel separation technique on the uniformity of far field reconstructions from such random-phase free holograms. We show the improved image quality with no additional speckle noise. Full Text: PDF ReferencesJ.W. Goodman, Roberts and Company (2005). DirectLink R.W. Gerchberg, W.O. Saxton, "A practical algorithm for the determination of phase from image and diffraction plane pictures", Optik 35, 237 (1972). DirectLink M. Makowski, "Minimized speckle noise in lens-less holographic projection by pixel separation", Opt. Express 21, 29205 (2013). CrossRef I. Ducin, T. Shimobaba, M. Makowski, K. Kakarenko, A. Kowalczyk, Jaroslaw Suszek, M. Bieda, A. Kolodziejczyk, M. Sypek, "Holographic projection of images with step-less zoom and noise suppression by pixel separation", Opt. Comm. 340, 131 (2015). CrossRef T. Shimobaba, T. Ito, "Random phase-free computer-generated hologram", Opt. Express 23, 9549 (2015). CrossRef T. Shimobaba, T. Kakue, Y. Endo, R. Hirayama, D. Hiyama, S. Hasegawa, Y. Nagahama, M. Sano, M. Oikawa, T. Sugie, T. Ito, "Random phase-free kinoform for large objects", Opt. Express 23, 17269 (2015). CrossRef M. Sypek, "Light propagation in the Fresnel region. New numerical approach", Opt. Comm. 116, 43 (1995). CrossRef K. Matsushima, T. Shimobaba, "Band-Limited Angular Spectrum Method for Numerical Simulation of Free-Space Propagation in Far and Near Fields", Opt. Express 17, 19662 (2009). CrossRef

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采用像素分离方法提高了无随机相位全息图的播放均匀性

无随机相位计算机生成的全息图提供了低频率图像的几乎无噪声回放的优良质量，但在具有高空间频率优势的高对比度二值图像的情况下，效率有限。弱随机相位的引入可以部分抑制这一问题，但会在结果中引起强噪声。本文研究了像元分离技术对无随机相位全息图远场重建均匀性的影响。我们展示了没有额外散斑噪声的改进图像质量。全文:PDF古德曼，罗伯茨和公司(2005)。R.W. Gerchberg, W.O. Saxton，“从图像和衍射平面图像中确定相位的实用算法”，Optik 35, 237(1972)。张晓明，张晓明，“基于像素分离的无透镜全息投影算法研究”，光学精密工程，2013,29(4)。CrossRef . Ducin, T. Shimobaba, M. Makowski, K. Kakarenko, A. Kowalczyk, Jaroslaw Suszek, M. Bieda, A. Kolodziejczyk, M. Sypek，“基于像素分离的无级变焦图像全息投影”，光学学报，34,31(2015)。陈晓明，王晓明，“随机无相位计算机生成全息图”，光学学报，23(4)(2015)。CrossRef T. Shimobaba, T. Kakue, Y. Endo, R. Hirayama, D. Hiyama, S. Hasegawa, Y. Nagahama, M. Sano, M. Oikawa, T. Sugie, T. Ito，“随机无相位图像的大型物体”，光学学报，23,17269(2015)。CrossRef M. Sypek，“菲涅耳区的光传播。”新的数值方法”，光学通讯，116,43(1995)。张晓明，“自由空间远场和近场传播数值模拟的带限制角谱方法”，光学学报，1996,6(2009)。CrossRef

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来源期刊

Photonics Letters of Poland OPTICS-

CiteScore

1.40

自引率

0.00%

发文量