Analytical Approach of Director Tilting in Nematic Liquid Crystals for Electronically Tunable Devices

Abstract: This paper presents an analytical expression that models the tilt angle of directors in a nematic liquid crystal (LC), depending on its elastic properties, its dielectric anisotropy, and the quasi-static electric field applied. The analytical solution obtained is fast and easily computable in comparison with numerical estimations and is of special interest in radiofrequency; for instance, for the LC modeling in full-wave electromagnetic simulators in the design process of electronically tunable devices, such a… Show more

“…Since it was demonstrated that it is possible to regenerate glide symmetry from a specific non-glide configuration, the use of thin metal plates instead of dielectric material allows the possibility of breaking and regenerating symmetry by displacing alternate rows of ellipses at a distance equal to the periodicity p (see Figure 10). Another possibility is to replace the dielectric material with an anisotropic material such as liquid crystal [28], whose effective dielectric constant in the direction of propagation can be modified by applying a voltage between the parallel metal plates containing it [32]. This property would make it possible to electrically control the appearance of stop-bands and refractive index.…”

One-Plane Glide-Symmetric Holey Structures for Stop-Band and Refraction Index Reconfiguration

“…Since it was demonstrated that it is possible to regenerate glide symmetry from a specific non-glide configuration, the use of thin metal plates instead of dielectric material allows the possibility of breaking and regenerating symmetry by displacing alternate rows of ellipses at a distance equal to the periodicity p (see Figure 10). Another possibility is to replace the dielectric material with an anisotropic material such as liquid crystal [28], whose effective dielectric constant in the direction of propagation can be modified by applying a voltage between the parallel metal plates containing it [32]. This property would make it possible to electrically control the appearance of stop-bands and refractive index.…”

One-Plane Glide-Symmetric Holey Structures for Stop-Band and Refraction Index Reconfiguration

“…In this section, we test the solutions obtained from the integral equations for all the parameters involved on the problem (k 11 , k 33 , V, ∆ε). We validate the results with numerical estimations and show that the error in our proposed approach is considerably reduced compared to [13]. In order to point out the implications of Section II in practical microwave designs, we will use as a reference the values measured in Merck E7 LC [16]: k 11 = 11.7 pN, k 33 = 17.1 pN, ∆ε = 0.47, ε ⊥ = 2.7.…”

“…However, a particular analytical approach can be derived from (2) when k 11 = k 33 . This fact was already exploited in [13]. However, the accuracy of the analytical approach reduces as k 33 moves away from k 11 .…”

“…[11], [12] at the expense of losing the physical insight on the properties of the material. In [13], it is recently proposed an analytical approach that takes into account these considerations. However, this approach is restricted to the case k 11 = k 22 = k 33 , commonly known in the literature as the oneconstant approximation [2].…”

“…Section II presents the derivation of the closed-form expression. Section III presents the simulation results, which are validated with numerical approaches and compared with [13]. Finally, conclusions are drawn in Section IV.…”

Generalized Director Approach for Liquid-Crystal-Based Reconfigurable RF Devices

Microwave, Millimeter Wave and Terahertz Applications of Liquid Crystal