We present a new multiphase- eld theory for describing pattern formation in multi-domain and/or
multi-component systems. The construction of the free energy functional and the dynamic equations
is based on criteria that ensure mathematical and physical consistency. We rst analyze previous
multiphase- eld theories, and identify their advantageous and disadvantageous features. On the
basis of this analysis, we introduce a new way of constructing the free energy surface, and derive
a generalized multiphase description for arbitrary number of phases (or domains). The presented
approach retains the variational formalism; reduces (or extends) naturally to lower (or higher) number
of elds on the level of both the free energy functional and the dynamic equations; enables the
use of arbitrary pairwise equilibrium interfacial properties; penalizes multiple junctions increasingly
with the number of phases; ensures non-negative entropy production, and the convergence of the
dynamic solutions to the equilibrium solutions; and avoids the appearance of spurious phases on
binary interfaces. The new approach is tested for multi-component phase separation and grain
coarsening.
Funding
This work has been supported by the VISTA basic
research programme of the Norwegian Academy of
Science and Letters and the Statoil, under Project No.
6359 “Surfactants for water/CO2/hydrocarbon emulsions for
combined CO2 storage and utilization,” by ESA PECS
Contracts No. 40000110756/11/NL/KML and No. 40000
110759/11/NL/KML, and by EU FP7 Project EXOMET
(Contract No. NMP-LA-2012-280421, cofunded by ESA).
History
School
Science
Department
Mathematical Sciences
Published in
Physical Review B
Volume
92
Citation
TOTH, G., PUSZTAI, T. and GRANASY, L., 2015. Consistent multiphase-field theory for interface-driven multidomain dynamics. Physical Review. B, Condensed matter and materials physics, 92 (18), DOI: 10.1103/PhysRevB.92.184105.
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