Liquid crystal flow: Dynamic and static configurations

M. Carme Calderer; Chun Liu

doi:10.1137/S0036139998336249

Liquid crystal flow: Dynamic and static configurations

M. Carme Calderer
, Chun Liu

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

31 Scopus citations

Abstract

We consider a system modeling the flow of nematic liquid crystals with variable degrees of orientation. Although the set of constitutive equations involves many different parameters, the flow behavior is determined mostly by three nondimensional parameters, i.e., the Ericksen number, the Reynolds number, and the interface number. We establish a dissipative relation of the system in general domains. In the case of plane Poiseuille flow, we prove existence and regularity of solutions. Moreover, we discuss the stationary configurations with a large number of defects due to the large Ericksen number of the flow.

Original language	English (US)
Pages (from-to)	1925-1949
Number of pages	25
Journal	SIAM Journal on Applied Mathematics
Volume	60
Issue number	6
DOIs	https://doi.org/10.1137/S0036139998336249
State	Published - May 1 2000

All Science Journal Classification (ASJC) codes

Applied Mathematics

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10.1137/S0036139998336249

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abstract = "We consider a system modeling the flow of nematic liquid crystals with variable degrees of orientation. Although the set of constitutive equations involves many different parameters, the flow behavior is determined mostly by three nondimensional parameters, i.e., the Ericksen number, the Reynolds number, and the interface number. We establish a dissipative relation of the system in general domains. In the case of plane Poiseuille flow, we prove existence and regularity of solutions. Moreover, we discuss the stationary configurations with a large number of defects due to the large Ericksen number of the flow.",

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N2 - We consider a system modeling the flow of nematic liquid crystals with variable degrees of orientation. Although the set of constitutive equations involves many different parameters, the flow behavior is determined mostly by three nondimensional parameters, i.e., the Ericksen number, the Reynolds number, and the interface number. We establish a dissipative relation of the system in general domains. In the case of plane Poiseuille flow, we prove existence and regularity of solutions. Moreover, we discuss the stationary configurations with a large number of defects due to the large Ericksen number of the flow.

AB - We consider a system modeling the flow of nematic liquid crystals with variable degrees of orientation. Although the set of constitutive equations involves many different parameters, the flow behavior is determined mostly by three nondimensional parameters, i.e., the Ericksen number, the Reynolds number, and the interface number. We establish a dissipative relation of the system in general domains. In the case of plane Poiseuille flow, we prove existence and regularity of solutions. Moreover, we discuss the stationary configurations with a large number of defects due to the large Ericksen number of the flow.

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UR - https://www.scopus.com/pages/publications/0034476004#tab=citedBy

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EP - 1949

JO - SIAM Journal on Applied Mathematics

JF - SIAM Journal on Applied Mathematics

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ER -

Liquid crystal flow: Dynamic and static configurations

Abstract

All Science Journal Classification (ASJC) codes

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