Broad spectrum measurement of the birefringence of an isothiocyanate based liquid crystal

Trushkevych, Oksana; Xu, Huan; Lu, Tianxin; Zeitler, J. Axel; Rungsawang, Rakchanok; Gölden, Felix; Collings, N.; Crossland, W. A.

doi:10.1364/ao.49.005212

Cited by 18 publications

(14 citation statements)

References 27 publications

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“…Theoretical predictions of the far-infrared vibrational spectrum as well as ultrabroadband experimental spectroscopic data, which, for example, were recently reported for 5 CB, 32 may help to verify this assumption. While other LC systems exhibiting a comparably high birefringence have been reported recently, 33 these structures typically suffer from high dichroism, thus limiting the application for switchable components significantly. The average absorption coefficient of 1852, i.e., the mean value of ordinary and extraordinary absorption coefficients, is therefore much lower than that of LCs with comparably high birefringence reported at THz frequencies so far.…”

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confidence: 99%

Highly birefringent, low-loss liquid crystals for terahertz applications

et al. 2013

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With growing interest in switchable devices for the THz frequency range, there is a strong demand for liquid crystals (LC) exhibiting both a high birefringence and a low absorption. We present the refractive index and absorption coefficient of the liquid crystal mixtures 1852 and 1825 in the frequency range between 0.2 and 2.5 THz. Both mixtures are designed specifically for high birefringence Δn of 0.32 and 0.38, respectively, in the THz region. In addition, they show low absorption coefficients for both ordinary and extraordinary polarization. This low absorbance in combination with the high birefringence makes these LCs particularly well suited for applications in switchable devices for THz optics

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confidence: 99%

Highly birefringent, low-loss liquid crystals for terahertz applications

et al. 2013

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“…2 (b) shows the results of the e.m. full-wave calculations compared with the experimental results for both the base layer and the complete (quasi-3D) structure. In the simulation, we assumed that the liquid crstal was fully isotropic with a value of the refractive index n iso = [(n| | 2 + 2n⊥ 2 )/3] 1/2 = 1.65 [12]. A very good agreement between simulations and measurements is observed.…”

Section: Thz Characterizationmentioning

confidence: 81%

“…For the test, we choose as liquid crystal an isothiocyanate based mixture having low absorption coefficient α and high birefringence Δn (Δn = n| | -n⊥, where n| | and n⊥ are the extraordinary and ordinary refractive indices respectively) in the THz region. At 1.5 THz and room temperature, this LC has α values in the range 10 ÷ 50 cm -1 and Δn as high as 0.3 [12]. Indeed, due to the LC infiltration, a red frequency shift of 160 GHz and signal modulation depth up to 20 dB at the central frequency is observed.…”

Section: Thz Characterizationmentioning

confidence: 94%

THz characterization of a metamaterial-based spatial light modulator

Chikhi

Lisitskiy

Casini

et al. 2014

2014 Third Mediterranean Photonics Conference

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The aim of this work is to investigate new classes of artificial materials exhibiting unconventional properties in order to build novel devices operating in the Terahertz regime. We focus on the design, fabrication and characterization of tunable metamaterials with unit cells based on Split Ring Resonators. By incorporation of a nematic liquid crystal in the structure, we observe a frequency shift in the resonant response over 10% in bandwidth and more than 10 dB change in the signal absorption. We discuss how such a hybrid structure can be exploited for the development of a THz spatial light modulator.

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“…According to Reuter et al [28], LCs with NCS groups enable higher birefringence over a broad temperature range than CN groups and have rather low viscosity. This material has been studied by Trushkevych et al [29], but they did not use very efficient alignment schemes such as high voltage and the THz band they measured is limited to 0.5-1.6 THz. In our 0.2-2.5 THz spectrum ( Figure 5), LCMS-107 shows a high birefringence (~0.3) across the entire band.…”

Section: Data Analysis and Discussionmentioning

confidence: 99%

High-birefringence nematic liquid crystal for broadband THz applications

Tan

Pivnenko

et al. 2016

Liquid Crystals

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Liquid crystals (LCs) have been studied extensively in the visible range for their dielectric tunability, and the characterisation in the terahertz (THz) range has gained increasing interest due to the need for active THz modulation and switching devices. In this paper, we use THz timedomain spectroscopy to measure the frequency-dependent birefringence and the absorption coefficient of a number of commercial and non-commercial nematic LCs, including E7, BL037, MDA-98-1602, LCMS-107, GT3-23001 and 1825, over a range of bias voltages at room temperature. Furthermore, several basic components of LC mixture are analysed to establish their contributions to birefringence and theoretical model is used to fit the absorption spectra. The large tunability and low loss measured for a range of samples show that the LCs are useful tunable dielectrics for compact, efficient and broadband THz devices. ARTICLE HISTORY

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Broad spectrum measurement of the birefringence of an isothiocyanate based liquid crystal

Cited by 18 publications

References 27 publications

Highly birefringent, low-loss liquid crystals for terahertz applications

Highly birefringent, low-loss liquid crystals for terahertz applications

THz characterization of a metamaterial-based spatial light modulator

High-birefringence nematic liquid crystal for broadband THz applications

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