Coherence aperture restricted spatial resolution for an arbitrary depth plane in incoherent digital holography

Nobukawa Teruyoshi; Katano Yutaro; Goto Masahide; Muroi Tetsuhiko; Kinoshita Nobuhiro; Iguchi Yoshinori; Ishii Norihiko

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Coherence aperture restricted spatial resolution for an arbitrary depth plane in incoherent digital holography

机译：相干孔径限制了非连锁式数字全息术中任意深度平面的空间分辨率

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Incoherent digital holography (IDH) requires no spatial coherence; however, it requires high temporal coherence for a light source to capture holograms with high spatial resolution. Temporal coherence is often enhanced with a bandpass filter, reducing the light utilization efficiency. Thus, there is a trade-off between spatial resolution and light utilization efficiency. In this paper, we derive a relationship between spatial resolution and temporal coherence by including a conceptual aperture, determined by temporal coherence, in our previous theory of spatial resolution for arbitrary depth planes [Opt. Express 27, 33634 (2019)]. Experimental evaluations verified the effectiveness of our theory, which is useful for the optimization of IDH setups and avoiding the trade-off. (C) 2021 Optical Society of America

机译：非相干数字全息术（IDH）不需要空间相干性；然而，为了获得高空间分辨率的全息图，光源需要高时间相干性。时间相干性通常通过带通滤波器增强，从而降低光利用效率。因此，在空间分辨率和光利用效率之间存在权衡。在本文中，我们通过在我们之前的任意深度平面空间分辨率理论[Opt.Express 27，33634（2019）]中包含由时间相干性确定的概念孔径，推导了空间分辨率和时间相干性之间的关系。实验结果验证了我们理论的有效性，这对于优化IDH设置和避免权衡是有用的。（2021）美国光学学会

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《Applied optics》 |2021年第18期|共7页
作者
Nobukawa Teruyoshi; Katano Yutaro; Goto Masahide; Muroi Tetsuhiko; Kinoshita Nobuhiro; Iguchi Yoshinori; Ishii Norihiko;
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Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

Japan Broadcasting Corp NHK Sci &

Technol Res Labs Setagaya Ku 1-10-11 Kinuta Tokyo 1578510 Japan;

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Coherence aperture restricted spatial resolution for an arbitrary depth plane in incoherent digital holography

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