Compatible Director Fields in R3

Luiz C. B. da Silva; Tal Bar; Efi Efrati

doi:10.1007/s10659-023-09988-7

Compatible Director Fields in R³

Luiz C. B. da Silva, Tal Bar, Efi Efrati

Department of Physics of Complex Systems

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

The geometry and interactions between the constituents of a liquid crystal, which are responsible for inducing the partial order in the fluid, may locally favor an attempted phase that could not be realized in R-3. While states that are incompatible with the geometry of R-3 were identified more than 50 years ago, the collection of compatible states remained poorly understood and not well characterized. Recently, the compatibility conditions for three-dimensional director fields were derived using the method of moving frames. These compatibility conditions take the form of six differential relations in five scalar fields locally characterizing the director field. In this work, we rederive these equations using a more transparent approach employing vector calculus. We then use these equations to characterize a wide collection of compatible phases.

Original language	English
Pages (from-to)	755-786
Number of pages	32
Journal	Journal of Elasticity
Volume	153
Issue number	4-5
DOIs	https://doi.org/10.1007/s10659-023-09988-7
State	Published - Jul 2023

All Science Journal Classification (ASJC) codes

Mechanics of Materials
Mechanical Engineering
General Materials Science

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10.1007/s10659-023-09988-7

https://arxiv.org/abs/2211.08598License: Unspecified

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title = "Compatible Director Fields in R3",

abstract = "The geometry and interactions between the constituents of a liquid crystal, which are responsible for inducing the partial order in the fluid, may locally favor an attempted phase that could not be realized in R-3. While states that are incompatible with the geometry of R-3 were identified more than 50 years ago, the collection of compatible states remained poorly understood and not well characterized. Recently, the compatibility conditions for three-dimensional director fields were derived using the method of moving frames. These compatibility conditions take the form of six differential relations in five scalar fields locally characterizing the director field. In this work, we rederive these equations using a more transparent approach employing vector calculus. We then use these equations to characterize a wide collection of compatible phases.",

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AU - Bar, Tal

AU - Efrati, Efi

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AB - The geometry and interactions between the constituents of a liquid crystal, which are responsible for inducing the partial order in the fluid, may locally favor an attempted phase that could not be realized in R-3. While states that are incompatible with the geometry of R-3 were identified more than 50 years ago, the collection of compatible states remained poorly understood and not well characterized. Recently, the compatibility conditions for three-dimensional director fields were derived using the method of moving frames. These compatibility conditions take the form of six differential relations in five scalar fields locally characterizing the director field. In this work, we rederive these equations using a more transparent approach employing vector calculus. We then use these equations to characterize a wide collection of compatible phases.

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JO - Journal of Elasticity

JF - Journal of Elasticity

IS - 4-5

ER -

Compatible Director Fields in R³

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