Abstract
We review advancements in incoherent digital holography (IDH) with an image sensor and its applications to multidimensional microscopy and a palm-sized hologram recorder termed “holosensor”. There are two types of representative IDH technique: IDH with a structured illumination and a single photodetector termed optical scanning holography and self-interference IDH. The latter IDH is a technique to obtain an incoherent digital hologram by modulating an incoherent light wave between an object and an image sensor. Multidimensional information such as three-dimensional space and wavelengths is simultaneously recorded without changing optical filters by introducing interferometric techniques invented in laser holography. Applications to high-speed color-multiplexed holographic fluorescence microscopy, single-shot incoherent full-color holographic microscopy with white light, and a palm-sized multidimensional incoherent hologram recorder have been developed using multidimensional IDH systems. Schematics and experimental results obtained using IDH techniques, incoherent holographic microscopy systems, and compact IDH systems are introduced.
Highlights
Multidimensional imaging is one of the most actively researched themes in both science and industry
We discuss the comparative merits of the introduced multidimensional incoherent digital holography (IDH) techniques
Spatial and temporal specifications of optical scanning holography (OSH) depend on the range and speed of scan of illumination light and pitch of a Gabor zone plate (GZP) pattern
Summary
Multidimensional imaging is one of the most actively researched themes in both science and industry. Incoherent digital holography (IDH) is an optical technique of 3D imaging with a single sensor. Lohmann proposed several optical implementations including self-interference and self-reference holography to obtain a hologram of spatially incoherent light and demonstrated holographic imaging with an implementation (Lohmann and Bryngdahl, 1968). Rosen and Brooker proposed an IDH technique that adopts a phase-only spatial light modulator (SLM) both to construct a self-interference IDH system and to conduct PSI, and the technique was termed Fresnel incoherent correlation holography (FINCH) (Rosen and Brooker, 2007). Applications of IDH, such as multidimensional holographic microscopy with incoherent light and the palm-sized hologram recorder “holosensor” (Tahara, 2021; Tahara and Oi, 2021; Tahara et al, 2021; Tahara et al, 2021c), are proposed using the developed IDH techniques. IDH techniques are explained and applications to multidimensional microscopy and holosensor are introduced
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