Koya Yamada scite author profile

Koya Yamada

3Publications

5Citation Statements Received

0Citation Statements Given

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Nagaoka University of Technology

Publications

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White-light circular-polarization imaging using pairs of polarization gratings and wedge prisms

et al. 2020

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A novel, to the best of our knowledge, method for circular-polarization imaging with white light is presented. The vital optical elements of the proposed system are two polarization gratings (PGs) and a wedge prism. The chromatic dispersion of the PG diffraction angle is compensated by the difference of the grating period for the two PGs. In addition, the distance between the diffracted lights on the imaging plane is controlled by using a wedge prism. As a result, S 3 of the Stokes parameter, including the wavelength dependence of a scarab beetle, was observed at a time, and the S 3 contribution to each color was determined by using the color filter of the light-receiving element. Because the white-light polarization image includes a lot of information about the illuminated structure, the proposed method should be applied to biomedical sensing and remote sensing.

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High-efficiency aerial display using a liquid crystal polarization grating, a retroreflector array, and a right-angle prism

et al. 2020

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An aerial display scheme consisting of an orthogonal circular polarization grating (OCPG), a waveplate, a retroreflector array (RRA), and a right-angle prism (RAP) was developed. Because of the OCPG’s functionality, retroreflected light from the RRA is transmitted through the RAP boundary surface by avoiding the total reflection condition. The proposed system can potentially increase optical throughput to 100% by designing the boundary surface incidence angle to be Brewster’s angle. The scheme’s feasibility was demonstrated experimentally using an OCPG and waveplate that were fabricated from polymer liquid crystal with optical anisotropy using a photoalignment technique. The scheme should be used as a type of aerial display that is compatible with polarization-diffractive elements called Pancharatnam–Berry phase elements.

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Magnification and wavefront aberration correction by a geometric-phase lens in a polarized aerial display using a right-angle prism

et al. 2021

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In this paper, geometric-phase lenses, which can not only correct wavefront aberrations but also magnify an aerial image, have been proposed for use in an aerial display system composed of a retroreflector array, an orthogonal-circular polarization grating, a right-angle prism, and a quarter-wave plate. The geometric-phase lenses were demonstrated both experimentally and computationally by arranging them in the aerial display configuration and observing aerial images. We also investigated the relationship between the magnification and the field of view of an aerial image, and it has been found that there is the trade-off relationship between them.

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Koya Yamada

White-light circular-polarization imaging using pairs of polarization gratings and wedge prisms

High-efficiency aerial display using a liquid crystal polarization grating, a retroreflector array, and a right-angle prism

Magnification and wavefront aberration correction by a geometric-phase lens in a polarized aerial display using a right-angle prism

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