B. Stebler scite author profile

The smectic layer spacing of a nonfluorinated ferroelectric liquid crystal (FLC) compound with almost no shrinkage and only minor tendency to form zigzag defects was characterized by small angle x-ray diffraction. The material lacks a nematic phase. The smectic-A*-smectic-C* phase transition was studied by measuring the thermal and electric field response of the optical tilt and the electric polarization. These properties are described very well by a Landau expansion even without introduction of a higher-order Theta(6) term. This result suggests a pure second-order phase transition far from tricriticality and differs considerably from the typical behavior of the A*-C* transition in most FLC materials.

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Measurements of Hydrodynamic Parameters for Nematic 5CB

Skarp

Lagerwall

Stebler

1980

Molecular Crystals and Liquid Crystals

176

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Collective and non-collective excitations in antiferroelectric and ferrielectric liquid crystals studied by dielectric relaxation spectroscopy and electro-optic measurements

Buivydas¹,

Gouda²,

Andersson³

et al. 1997

Liquid Crystals

132

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Collective and non-collective excitations in antiferroelectric and ferrielectric liquid crystals studied by dielectric relaxation spectroscopy and electro-optic measurements, Liquid Crystals, 23:5, 723-739,The dynamics of diVerent molecular modes in four antiferroelectric liquid crystal substances have been studied by a combination of spectroscopic methods.The fastest motion is the reorientation around the molecular long axis, here found in the low GHz range by time domain spectroscopy. The reorientation around the short axis has a characteristic frequency of about 10 kHz and is detected by frequency domain spectroscopy in the homeotropic con® guration. As for the collective excitations, the Goldstone and soft modes, characteristic of the ferroelectric phase, have counterparts in the antiferroelectric phase which appear very diVerent. There are two characteristic peaks in the spectrum, one at high frequency, about 100 kHz, the other at low frequency, about 10 kHz. The latter has often been mistaken for short axis reorientation and both have been attributed to soft modes. By combining diVerent experimental techniques and diVerent geometries it can be shown that neither is a soft mode, but both are collective modes of diVerent character: the high frequency mode corresponds tō uctuations where molecules in neighbouring layers are moving in opposite phase, the low frequency mode to phase¯uctuations in the helicoidal superstructure. In materials exhibiting a C* phase in addition to the C * a or C * c phases, an additional strong peak appears in at least one lower-lying phase adjacent to the C* phase. We show that this peak, which we call a hereditary peak, has nothing to do with the antiferroelectric or ferrielectric order, but is

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Submicrosecond electro-optic switching in the liquid-crystal smectic A phase: The soft-mode ferroelectric effect

et al. 1987

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A new liquid-crystal electro-optic modulating device similar to the surface-stabilized ferroelectric liquid-crystal device is described. It uses the same kind of ferroelectric chiral smectics and the same geometry as that device (thin sample in the ‘‘bookshelf ’’ layer arrangement) but instead of using a tilted smectic phase like the C* phase, it utilizes the above-lying, nonferroelectric A phase, taking advantage of the electroclinic effect. The achievable optical intensity modulation that can be detected through the full range of the A phase is considerably lower than for the surface-stabilized device, but the response is much faster. Furthermore, the response is strictly linear with respect to the applied electric field. The device concept is thus appropriate for modulator rather than for display applications. We describe the underlying physics and present measurements of induced tilt angle, of light modulation depth, and of rise time.

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B. Stebler

The molecular aspect of the double absorption peak in the dielectric spectrum of the antiferroelectric liquid crystal phase

Smectic-A–smectic-Ctransition in a ferroelectric liquid crystal without smectic layer shrinkage

Measurements of Hydrodynamic Parameters for Nematic 5CB

Collective and non-collective excitations in antiferroelectric and ferrielectric liquid crystals studied by dielectric relaxation spectroscopy and electro-optic measurements

Submicrosecond electro-optic switching in the liquid-crystal smectic A phase: The soft-mode ferroelectric effect

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B. Stebler

The molecular aspect of the double absorption peak in the dielectric spectrum of the antiferroelectric liquid crystal phase

Smectic-A*–smectic-C*transition in a ferroelectric liquid crystal without smectic layer shrinkage

Measurements of Hydrodynamic Parameters for Nematic 5CB

Collective and non-collective excitations in antiferroelectric and ferrielectric liquid crystals studied by dielectric relaxation spectroscopy and electro-optic measurements

Submicrosecond electro-optic switching in the liquid-crystal smectic A phase: The soft-mode ferroelectric effect

Contact Info

Product

Resources

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Smectic-A–smectic-Ctransition in a ferroelectric liquid crystal without smectic layer shrinkage