Bragg Reflection Band Width and Optical Rotatory Dispersion of Cubic Blue-phase Liquid Crystals

Overview

Journal Phys Rev E

Publisher American Physical Society

Specialty Biophysics

Date 2016 Nov 15

PMID 27841625

Citations 5

Authors

Hiroyuki Yoshida

Konkanok Anucha

Yasuhiro Ogawa

Yuto Kawata

Masanori Ozaki

Jun-Ichi Fukuda

Hirotsugu Kikuchi

Affiliations

Soon will be listed here.

Abstract

The Bragg reflection band width and optical rotatory dispersion of liquid crystalline cholesteric blue phases (BPs) I and II are compared by numerical simulations. Attention is paid to the wavelength regions for which the reflection bands with lowest photon energies appear, i.e., the [110] direction for BP I and the [100] direction for BP II. Finite difference time domain and 4×4 matrix calculations performed on the theoretical director tensor distribution of BPs with the same material parameters show that BP II, which has simple cubic symmetry, has a wider photonic band gap than BP I, which has body centered cubic symmetry, possibly due to the fact that the density of the double-twist cylinders in BP II are twice that in BP I. The theoretical results on the Bragg reflection band width are supported by reflectance measurements performed on BPs I and II for light incident along the [110] and [100] directions, respectively.

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