Biomembranes and vesicles consisting of multiple phases can attain a multitude of shapes, undergoing complex shape transitions. We study a Cahn--Hilliard model on an evolving hypersurface coupled to Navier--Stokes equations on the surface and in the surrounding medium to model these phenomena. The evolution is driven by a curvature energy, modelling the elasticity of the membrane, and by a Cahn--Hilliard type energy, modelling line energy effects. A stable semidiscrete finite element approximation is introduced and, with the help of a fully discrete method, several phenomena occurring for two-phase membranes are computed
Abstract:- In this paper we study a methodology for the numerical simulation of stable structures of...
We develop a finite element scheme to approximate the dynamics of two and three dimensional fluidic ...
Modeling vesicle dynamics involves a complicated moving boundary problem where uids, thermal uctuati...
Biomembranes and vesicles consisting of multiple phases can attain a multitude of shapes, undergoing...
Biomembranes and vesicles consisting of multiple phases can attain a multitude of shapes, undergoing...
We present a parametric finite element approximation of a fluidic membrane whose evolution is govern...
A finite element method for the evolution of a two-phase membrane in a sharp interface formulation i...
A finite element method for the evolution of a two-phase membrane in a sharp interfaceformulation is...
To explore the impact of surface viscosity on coexisting fluid domains in biomembranes we consider t...
Vesicles formed by lipid bilayers (biomembranes) show a variety of interesting shapes that can be ex...
Ryham, X. Wang and J. Zhang) on the phase field modeling and simulations of the vesicle membrane def...
We consider vesicles formed by lipid bilayers with intra-membrane phase interfaces. A gradient flow ...
We develop and investigate numerically a thermodynamically consistent model of two-dimensional multi...
Biomembranes consisting of multiple lipids may involve phase separation phenomena leading to coexist...
In this paper, we study numerical approximations of a recently proposed phase field model for the ve...
Abstract:- In this paper we study a methodology for the numerical simulation of stable structures of...
We develop a finite element scheme to approximate the dynamics of two and three dimensional fluidic ...
Modeling vesicle dynamics involves a complicated moving boundary problem where uids, thermal uctuati...
Biomembranes and vesicles consisting of multiple phases can attain a multitude of shapes, undergoing...
Biomembranes and vesicles consisting of multiple phases can attain a multitude of shapes, undergoing...
We present a parametric finite element approximation of a fluidic membrane whose evolution is govern...
A finite element method for the evolution of a two-phase membrane in a sharp interface formulation i...
A finite element method for the evolution of a two-phase membrane in a sharp interfaceformulation is...
To explore the impact of surface viscosity on coexisting fluid domains in biomembranes we consider t...
Vesicles formed by lipid bilayers (biomembranes) show a variety of interesting shapes that can be ex...
Ryham, X. Wang and J. Zhang) on the phase field modeling and simulations of the vesicle membrane def...
We consider vesicles formed by lipid bilayers with intra-membrane phase interfaces. A gradient flow ...
We develop and investigate numerically a thermodynamically consistent model of two-dimensional multi...
Biomembranes consisting of multiple lipids may involve phase separation phenomena leading to coexist...
In this paper, we study numerical approximations of a recently proposed phase field model for the ve...
Abstract:- In this paper we study a methodology for the numerical simulation of stable structures of...
We develop a finite element scheme to approximate the dynamics of two and three dimensional fluidic ...
Modeling vesicle dynamics involves a complicated moving boundary problem where uids, thermal uctuati...