Monodomain Blue Phase Liquid Crystal Layers for Phase Modulation

E Oton,T Nakano,Y D.-Katayama,F Inoue,E Netter

doi:10.1038/srep44575

E Oton, T Nakano + Show 3 more

Open Access

https://doi.org/10.1038/srep44575

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Journal: Scientific Reports	Publication Date: Mar 10, 2017
Citations: 44	License type: open-access

Affiliation: Nikon (Japan), Essilor (France)

Abstract

Liquid crystal “Blue Phases” (BP) have evolved, in the last years, from a scientific curiosity to emerging materials for new photonic and display applications. They possess attractive features over standard nematic liquid crystals, like submillisecond switching times and polarization- independent optical response. However, BPs still present a number of technical issues that prevent their use in practical applications: their phases are only found in limited temperature ranges, thus requiring stabilization of the layers; stabilized BP layers are inhomogeneous and not uniformly oriented, which worsen the optical performance of the devices. It would be essential for practical uses to obtain perfectly aligned and oriented monodomain BP layers, where the alignment and orientation of the cubic lattice are organized in a single 3D structure. In this work we have obtained virtually perfect monodomain BP layers and used them in devices for polarization independent phase modulation. We demonstrate that, under applied voltage, well aligned and oriented layers generate smoother and higher values of the phase shift than inhomogeneous layers, while preserving polarization independency. All BP devices were successfully stabilized in BPI phase, maintaining the layer monodomain homogeneity at room temperature, covering the entire area of the devices with a unique BP phase.

Highlights

BP is among the limited number of solutions existing for achieving polarization independent tunable phase modulation with liquid crystal based devices
It follows that manufacturing of well aligned and oriented monodomain BP layers is essential for practical applications, especially in phase modulation devices
Alignment layers play a key role in Blue Phase stabilization, as they change the temperature ranges where BPI and BPII show up

Summary

Introduction

BP is among the limited number of solutions existing for achieving polarization independent tunable phase modulation with liquid crystal based devices. External electric fields produce an isotropic elongation of the cubic polymer stabilized BP lattice. It follows that manufacturing of well aligned and oriented monodomain BP layers is essential for practical applications, especially in phase modulation devices. Switch of the liquid crystal, with all BP cubes elongated in the same fashion This produces a significant improvement in the electrooptical properties of the devices[21,22]. In this context, “monodomain” means that both, the alignment of the BP layer and the orientation of the cubic lattice are organized in a unique 3D structure over the whole layer. Homogeneous BPI layers have been previously reported in the literature, they were multidomain layers[1,23], not aligned[13] and/or not stabilized at room temperature[22,24]

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