Retsu Moriwaki scite author profile

Grating devices using photosensitive organic materials play an important role in the development of optical and optoelectronic systems. High diffraction efficiency and polarization dependence achieved in a holographic polymer-dispersed liquid crystal (HPDLC) grating are expected to provide polarization controllable optical devices, such as the holographic memory for optically reconfigurable gate arrays (ORGAs). However, the optical property is affected by the thermal modulation around the transition temperature (T(ni)) that the liquid crystal (LC) changes from nematic to isotropic phases. The temperature dependence of the diffraction efficiency in HPDLC grating is discussed with two types of LC composites comprised of isotropic and LC diacrylate monomers. The holographic memory formed by the LC and LC diacrylate monomer performs precise reconstruction of the context information for ORGAs at high temperatures more than 150°C.

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FPGA Blokus Duo Solver using a massively parallel architecture

Yoza

Moriwaki

Torigai

et al. 2013

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Othello Solver based on a soft-core MIMD processor array

Mabuchi

Watanabe

Moriwaki

et al. 2010

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Temperature dependence of anisotropic diffraction in holographic polymer-dispersed liquid crystal memory

2013

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Grating devices using photosensitive organic materials play an important role in the development of optical and optoelectronic systems. High diffraction efficiency and polarization dependence achieved in a holographic polymer-dispersed liquid crystal (HPDLC) grating are expected to provide polarization-controllable optical devices, such as a holographic memory for optically reconfigurable gate arrays (ORGAs). However, the optical property is affected by the thermal modulation around the transition temperature (T(ni)) where the liquid crystal (LC) changes from nematic to isotropic phases. The temperature dependence of the diffraction efficiency in HPDLC grating is investigated using four types of LC composites comprised of LCs and monomers having different physical properties such as T(ni) and anisotropic refractive indices. The holographic memory formed by the LC with low anisotropic refractive index and LC diacrylate monomer implements optical reconfiguration for ORGAs at a high temperature beyond T(ni) of LC.

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Retsu Moriwaki

An FPGA Connect6 Solver with a two-stage pipelined evaluation

Formation of temperature dependable holographic memory using holographic polymer-dispersed liquid crystal

FPGA Blokus Duo Solver using a massively parallel architecture

Othello Solver based on a soft-core MIMD processor array

Temperature dependence of anisotropic diffraction in holographic polymer-dispersed liquid crystal memory

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