Steady state solutions of the Smoluchowski equation for nematic polymers under imposed fields
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Authors
Zhou, Hong
Wang, Qi
Sircar, Sarthok
Subjects
Liquid crystals
kinetic theory
polymers
elongational
flow
magnetic field
electric field
kinetic theory
polymers
elongational
flow
magnetic field
electric field
Advisors
Date of Issue
2005
Date
2005
Publisher
Language
Abstract
We solve the Smoluchowski equation for steady state solutions of rigid nematic polymers and suspensions under imposed elongational flow, magnetic or electric fields, respectively.
Under the three imposed fields, we show that (1) the Smoluchowski equation can be cast into a
generic form, (2) the external field must parallel to one of the eigenvectors of the second moment
tensor in steady states, and (3) the steady state solution of the Smoluchowski equation (probability
density function or simply pdf) is of the Boltzmann type parameterized by material parameters and two order parameters governed by two algebraic-integral equations. Then, we present a complete bifurcation diagram of the order parameters with respect to the material parameters by solving the algebraic-integral equations. The stability of the pdf solutions is inferred from the minimum of the free energy density. The solution method is extended to dilute solutions of dipolar, rigid nematic polymers under an imposed electric field. The first moment of the steady state pdf is shown to be parallel to the external field direction at sufficiently strong permanent dipole or relatively weak dipole-dipole interaction. In this case, the steady solution of the Smoluchowski equation is parameterized by one order parameter and material parameters in the Boltzmann form. Otherwise, the first moment is not necessarily parallel to the external field direction.
Type
Description
Communications in Mathematical Sciences, Volume 3, Issue 4, 605-620, 2005.
Series/Report No
Department
Department of Applied Mathematics
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Citation
Steady state solutions of the Smoluchowski equation for nematic polymers under imposed fields (with Q. Wang and S. Sircar), Communications in Mathematical Sciences, 3 (4), 605-620, 2005.
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This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.