{"title":"在阈值介质中写入计算机生成全息图的数值优化","authors":"M. Makowski, Mateusz Sadowski","doi":"10.4302/plp.v13i4.1108","DOIUrl":null,"url":null,"abstract":"Recent developments in binary photo-magnetic materials showed efficient and ultra-fast rewriting of holograms where the intensity threshold allows for a dense, sub-diffraction limit packing of hologram points. This paper describes the numerical optimization of the process of writing and reconstructing of 2-D images in a binary-phase computer-generated holograms stored in the said threshold-like medium. Global optimization of the free parameters of the writing process is shown, including the intensity threshold level, propagation distance, hologram spot size and the shape of the boundary regions of the written spots. We present the optimal set of parameters for the best possible writing quality. Full Text: PDF ReferencesA. Stupakiewicz, K. Szerenos, D. Afanasiev et al., \"Ultrafast nonthermal photo-magnetic recording in a transparent medium\", Nature 542, 71 (2017). CrossRef J. Starobrat, A. Frej, J. Bolek, R. Trybus, A. Stupakiewicz, and M. Makowski, \"Photo-magnetic recording of randomized holographic diffraction patterns in a transparent medium\", Opt. Lett. 45, 5177 (2020). CrossRef V. Ostroverkhov, et al., \"Micro-Holographic Storage and Threshold Holographic Recording Materials\", Jap. J. App. Phys. 48.3S1, 03A035 (2009). 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 F. Wyrowski, O. Bryngdahl, \"Iterative Fourier-transform algorithm applied to computer holography\", JOSA A 5.7, 1058 (1988). 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 M. Makowski, \"Minimized speckle noise in lens-less holographic projection by pixel separation\", Opt. Express 21, 29205 (2013). CrossRef","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2021-12-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Numerical optimization of writing computer-generated holograms in threshold media\",\"authors\":\"M. Makowski, Mateusz Sadowski\",\"doi\":\"10.4302/plp.v13i4.1108\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Recent developments in binary photo-magnetic materials showed efficient and ultra-fast rewriting of holograms where the intensity threshold allows for a dense, sub-diffraction limit packing of hologram points. This paper describes the numerical optimization of the process of writing and reconstructing of 2-D images in a binary-phase computer-generated holograms stored in the said threshold-like medium. Global optimization of the free parameters of the writing process is shown, including the intensity threshold level, propagation distance, hologram spot size and the shape of the boundary regions of the written spots. We present the optimal set of parameters for the best possible writing quality. Full Text: PDF ReferencesA. Stupakiewicz, K. Szerenos, D. Afanasiev et al., \\\"Ultrafast nonthermal photo-magnetic recording in a transparent medium\\\", Nature 542, 71 (2017). CrossRef J. Starobrat, A. Frej, J. Bolek, R. Trybus, A. Stupakiewicz, and M. Makowski, \\\"Photo-magnetic recording of randomized holographic diffraction patterns in a transparent medium\\\", Opt. Lett. 45, 5177 (2020). CrossRef V. Ostroverkhov, et al., \\\"Micro-Holographic Storage and Threshold Holographic Recording Materials\\\", Jap. J. App. Phys. 48.3S1, 03A035 (2009). 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 F. Wyrowski, O. Bryngdahl, \\\"Iterative Fourier-transform algorithm applied to computer holography\\\", JOSA A 5.7, 1058 (1988). 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 M. Makowski, \\\"Minimized speckle noise in lens-less holographic projection by pixel separation\\\", Opt. Express 21, 29205 (2013). 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引用次数: 0
摘要
最近二元光磁材料的发展显示出全息图的高效和超快速重写,其中强度阈值允许全息图点的密集,亚衍射极限包装。本文描述了存储在上述阈值介质中的二相计算机生成全息图中二维图像的写入和重建过程的数值优化。给出了书写过程自由参数的全局优化,包括强度阈值、传播距离、全息光斑尺寸和书写光斑边界区域形状。我们提出了最佳的一组参数,以达到最佳的写作质量。全文:PDFStupakiewicz, K. Szerenos, D. Afanasiev等,“透明介质中的超快非热光磁记录”,Nature 542, 71(2017)。CrossRef J. Starobrat, a . Frej, J. Bolek, R. Trybus, a . Stupakiewicz, M. Makowski,“透明介质中随机全息衍射图案的光磁记录”,光学学报,45,577(2020)。[j],“微全息存储与阈值全息记录材料”,中国科学院学报。[j] .物理应用,48(1),35 - 35(2009)。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 F. Wyrowski, O. Bryngdahl,“迭代傅里叶变换算法在计算机全息成像中的应用”,计算机科学学报,5.7,1058(1988)。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)。CrossRef M. Makowski,“基于像素分离的无透镜全息投影的最小散斑噪声”,光学学报,21(2013)。CrossRef
Numerical optimization of writing computer-generated holograms in threshold media
Recent developments in binary photo-magnetic materials showed efficient and ultra-fast rewriting of holograms where the intensity threshold allows for a dense, sub-diffraction limit packing of hologram points. This paper describes the numerical optimization of the process of writing and reconstructing of 2-D images in a binary-phase computer-generated holograms stored in the said threshold-like medium. Global optimization of the free parameters of the writing process is shown, including the intensity threshold level, propagation distance, hologram spot size and the shape of the boundary regions of the written spots. We present the optimal set of parameters for the best possible writing quality. Full Text: PDF ReferencesA. Stupakiewicz, K. Szerenos, D. Afanasiev et al., "Ultrafast nonthermal photo-magnetic recording in a transparent medium", Nature 542, 71 (2017). CrossRef J. Starobrat, A. Frej, J. Bolek, R. Trybus, A. Stupakiewicz, and M. Makowski, "Photo-magnetic recording of randomized holographic diffraction patterns in a transparent medium", Opt. Lett. 45, 5177 (2020). CrossRef V. Ostroverkhov, et al., "Micro-Holographic Storage and Threshold Holographic Recording Materials", Jap. J. App. Phys. 48.3S1, 03A035 (2009). 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 F. Wyrowski, O. Bryngdahl, "Iterative Fourier-transform algorithm applied to computer holography", JOSA A 5.7, 1058 (1988). 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 M. Makowski, "Minimized speckle noise in lens-less holographic projection by pixel separation", Opt. Express 21, 29205 (2013). CrossRef
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