Develops a model-independent energy-based CutFEM formulation for finite-strain elasticity using automatic differentiation, with cut-independent stability analysis and convergence results for both smooth solutions and corner singularities.
part i: Poisson and stokes problems
3 Pith papers cite this work. Polarity classification is still indexing.
years
2026 3verdicts
UNVERDICTED 3representative citing papers
A shifted interface method is extended to transient poroelasticity, enabling first-order accurate modeling of embedded cracks on unfitted meshes with weak or strong interface enforcement.
Block preconditioner with velocity-pressure Schur approximation yields mesh-independent GMRES convergence for SBM-Stokes via field-of-values analysis showing non-symmetric terms are small perturbations on fine meshes.
citing papers explorer
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A Unified CutFEM Formulation for Finite-Strain Elasticity: Energy Minimisation and Corner Singularities
Develops a model-independent energy-based CutFEM formulation for finite-strain elasticity using automatic differentiation, with cut-independent stability analysis and convergence results for both smooth solutions and corner singularities.
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A shifted interface approach for internal discontinuities in poroelastic media
A shifted interface method is extended to transient poroelasticity, enabling first-order accurate modeling of embedded cracks on unfitted meshes with weak or strong interface enforcement.
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Block Preconditioning for Shifted Boundary Method Discretisations of the Stokes Problem
Block preconditioner with velocity-pressure Schur approximation yields mesh-independent GMRES convergence for SBM-Stokes via field-of-values analysis showing non-symmetric terms are small perturbations on fine meshes.