M. Gatti scite author profile

The anchoring energy at the interface between the nematic liquid crystal 4-n -pentyl-4'cyanobiphenyl (5CB) and a glass plate treated by oblique evaporation of SiO is studied by measurement of the torque exerted on the surface by the nematic subject to an orienting magnetic field. The anchoring energy is sharply reduced as the clearing temperature is approached. The experiment provides the first direct evidence of a strong reduction of the surface order parameter for this system in the anisotropic phase.

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A new torsion pendulum technique to measure the twist elastic constant of liquid crystals

Faetti

Gatti

Palleschi

1985

J. Phyique Lett.

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2014 Une nouvelle technique de mesure de la constante élastique de torsion des cristaux liquides nématiques est proposée. Cette technique est basée sur une mesure directe du couple exercé par le directeur sur les surfaces quand le nématique est soumis à un champ magnétique. Cette technique est appliquée à la mesure de la constante élastique K22 du cristal liquide 4-n-pentyl-4'-cyanobiphényl (5CB). Abstract 2014 A new experimental method to measure the twist elastic constant of nematic liquid crystals is proposed. The method is based on a direct measurement of the torque which the nematic liquid crystal exerts on the surfaces when a magnetic field is applied. The reliability of this technique is tested by measuring the twist elastic constant of the nematic liquid crystal 4-n-pentyl-4'-cyanobiphenyl (5CB). The experimental results are compared with previous measurements performed by other authors.

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Measurements of surface elastic torques in liquid crystals : a method to measure elastic constants and anchoring energies

Faetti

Gatti

Palleschi

1986

Rev. Phys. Appl. (Paris)

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2014 Le couple exercé par un cristal liquide nématique sur les surfaces est mesuré en utilisant un pendule de torsion. Ce couple est engendré par un champ magnétique qui provoque une distorsion du directeur. Trois géométries différentes sont étudiées. Les constantes élastiques et l'energie d'ancrage du cristal liquide nématique peuvent être obtenues par la mesure du couple. L'avantage de cette méthode est que la mesure des constantes élastiques est peu sensible aux petites desorientations du directeur près des surfaces et a une valeur finie de l'énergie d'ancrage. Nous avons utilisé cette technique pour la mesure des constantes élastiques K11 and K33 du cristal liquide 4-pentyl-4'-cyanobiphenyl (5CB). Les résultats de l'expérience sont comparés avec des mesures précédentes.

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M. Gatti

Almost Critical Behavior of the Anchoring Energy at the Interface between a Nematic Liquid Crystal and a SiO Substrate

A new torsion pendulum technique to measure the twist elastic constant of liquid crystals

Measurements of surface elastic torques in liquid crystals : a method to measure elastic constants and anchoring energies

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