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Field theoretic approach for block polymer melts: SCFT and FTS

M. W. Matsen

2020The Journal of Chemical Physics85 citationsDOIOpen Access PDF

Abstract

This perspective addresses the development of polymer field theory for predicting the equilibrium phase behavior of block polymer melts. The approach is tailored to the high-molecular-weight limit, where universality reduces all systems to the standard Gaussian chain model, an incompressible melt of elastic threads interacting by contact forces. Using mathematical identities, this particle-based version of the model is converted to an equivalent field-based version that depends on fields rather than particle coordinates. The statistical mechanics of the field-based model is typically solved using the saddle-point approximation of self-consistent field theory (SCFT), which equates to mean field theory, but it can also be evaluated using field theoretic simulations (FTS). While SCFT has matured into one of the most successful theories in soft condensed matter, FTS are still in its infancy. The two main obstacles of FTS are the high computational cost and the occurrence of an ultraviolet divergence, but fortunately there has been recent groundbreaking progress on both fronts. As such, FTS are now well poised to become the method of choice for predicting fluctuation corrections to mean field theory.

Topics & Concepts

Field theory (psychology)Saddle pointStatistical physicsStatistical mechanicsField (mathematics)Mean field theoryTheoretical physicsPhysicsClassical mechanicsMathematicsQuantum mechanicsGeometryMathematical physicsPure mathematicsBlock Copolymer Self-AssemblyMaterial Dynamics and PropertiesRheology and Fluid Dynamics Studies
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