K
Kouichi Nitta
Researcher at Kobe University
Publications - 93
Citations - 972
Kouichi Nitta is an academic researcher from Kobe University. The author has contributed to research in topics: Holography & Digital holography. The author has an hindex of 15, co-authored 92 publications receiving 919 citations.
Papers
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Journal ArticleDOI
Image reconstruction for thin observation module by bound optics by using the iterative backprojection method.
TL;DR: This work investigates a novel procedure combining a pixel-rearrangement method and iterative backprojection (IBP) for reconstructing high-spatial-resolution images in an imaging system known as thin observation module by bound optics.
Patent
Apparatus and method for image configuring
Jun Tanida,Kouichi Nitta +1 more
TL;DR: Using image data on a plurality of reduced object images to calculate a shift amount in regard to the gap of relative positions between the reduced object image by a correlation calculation between the images, a conversion equation is obtained from the shift amount for geometric projection process from the object image to each of the images as discussed by the authors.
Proceedings ArticleDOI
Transmissive optical imaging device with micromirror array
TL;DR: The Transmissive Mirror Device (TMD) as discussed by the authors is a micro-mirror array, which consists of numerous micromirrors placed perpendicular to the surface of a flat, thin metal plate.
Journal ArticleDOI
Parallel phase-shifting digital holography with adaptive function using phase-mode spatial light modulator
TL;DR: The phase-mode SLM implements spatial distribution of phase retardation required in the parallel phase-shifting digital holography and can also compensate dynamically the phase distortion caused by optical elements such as beam splitters, lenses, and air fluctuation.
Journal ArticleDOI
Phase and fluorescence imaging by combination of digital holographic microscopy and fluorescence microscopy
TL;DR: A system that combines fluorescence microscopy and digital holographic microscopy into a single system for biological applications and the measurement of fluorescence beads and egera densa presented the feasibility of simultaneous detection of both a phase image and a fluorescence image.