Add to ORKGIn this paper we present a derivation of the surface Helmholtz decomposition, discuss its relation to the surface Hodge decomposition, and derive a well-posed stream function formulation of a class of surface Stokes problems. The surface gradient, divergence, curl and Laplace operators are defined in terms of the standard differential operators of the ambient Euclidean space. These representations are very convenient for the implementation of numerical methods for surface partial differential equations. Recently we derived a surface Helmholtz decomposition, in terms of these surface differential operators, based on elementary differential calculus. Using this decomposition the variational form of the surface Stokes equation can be reformul...
According to the Helmholtz decomposition, the irrotational parts of the momentum balance equations o...
We present a mathematical and numerical model for coupled subsurface and surface flows based on coup...
Here we define our notation and some basic facts and identities from differential geometry. For furt...
In this paper we present a derivation of the surface Helmholtz decomposition, discuss its relation t...
We consider a surface Stokes problem in stream function formulation on a simply connected oriented s...
Code to produce the SFEM results in the paper "Finite element discretization methods for velocity-pr...
In this thesis we develop and analyze efficient and highly accurate finite element methods for the n...
AbstractThe governing equations for Stokes flow are formulated in terms of a stream function and Air...
Abstract. Using only fairly simple and elementary considera-tions- essentially from first year under...
In this paper we study parametric TraceFEM and parametric SurfaceFEM (SFEM) discretizations of a sur...
AbstractThe governing equations for Stokes flow are formulated in terms of a stream function and Air...
Surface diffusion is a (fourth order highly nonlinear) geometric driven motion of a surface with nor...
This is the second in a series of papers on the Stokes flow past an arbitrary axisymmetrical body. T...
summary:Numerical analysis of a model Stokes interface problem with the homogeneous Dirichlet bounda...
summary:Numerical analysis of a model Stokes interface problem with the homogeneous Dirichlet bounda...
According to the Helmholtz decomposition, the irrotational parts of the momentum balance equations o...
We present a mathematical and numerical model for coupled subsurface and surface flows based on coup...
Here we define our notation and some basic facts and identities from differential geometry. For furt...
In this paper we present a derivation of the surface Helmholtz decomposition, discuss its relation t...
We consider a surface Stokes problem in stream function formulation on a simply connected oriented s...
Code to produce the SFEM results in the paper "Finite element discretization methods for velocity-pr...
In this thesis we develop and analyze efficient and highly accurate finite element methods for the n...
AbstractThe governing equations for Stokes flow are formulated in terms of a stream function and Air...
Abstract. Using only fairly simple and elementary considera-tions- essentially from first year under...
In this paper we study parametric TraceFEM and parametric SurfaceFEM (SFEM) discretizations of a sur...
AbstractThe governing equations for Stokes flow are formulated in terms of a stream function and Air...
Surface diffusion is a (fourth order highly nonlinear) geometric driven motion of a surface with nor...
This is the second in a series of papers on the Stokes flow past an arbitrary axisymmetrical body. T...
summary:Numerical analysis of a model Stokes interface problem with the homogeneous Dirichlet bounda...
summary:Numerical analysis of a model Stokes interface problem with the homogeneous Dirichlet bounda...
According to the Helmholtz decomposition, the irrotational parts of the momentum balance equations o...
We present a mathematical and numerical model for coupled subsurface and surface flows based on coup...
Here we define our notation and some basic facts and identities from differential geometry. For furt...