A roadmap to well posed and stable problems in computational physics

Practical inlet boundary conditions for internal flow calculations, Trace preserving quantum dynamics using a novel reparametrization-neutral summation-by-parts difference operator, Properties of Runge-Kutta-summation-by-parts methods, Nonlinear and linearised primal and dual initial boundary value problems: when are they bounded? How are they connected?, On the theoretical foundation of overset grid methods for hyperbolic problems: well-posedness and conservation, Energy stable wall modeling for the Navier-Stokes equations, The BR1 scheme is stable for the compressible Navier-Stokes equations, Well-posed and stable transmission problems, Energy stable boundary conditions for the nonlinear incompressible Navier–Stokes equations, Towards stable radial basis function methods for linear advection problems, A linear and nonlinear analysis of the shallow water equations and its impact on boundary conditions, A stable and conservative nonlinear interface coupling for the incompressible Euler equations, A non-stiff summation-by-parts finite difference method for the scalar wave equation in second order form: characteristic boundary conditions and nonlinear interfaces, A Method-of-Lines Framework for Energy Stable Arbitrary Lagrangian–Eulerian Methods, Simulation of Wave Propagation Along Fluid-Filled Cracks Using High-Order Summation-by-Parts Operators and Implicit-Explicit Time Stepping, Stable, entropy-pressure compatible subsonic Riemann boundary condition for embedded DG compressible flow simulations, Analysis of the SBP-SAT stabilization for finite element methods. II: Entropy stability, A new variational discretization technique for initial value problems bypassing governing equations, A provably stable and high-order accurate finite difference approximation for the incompressible boundary layer equations, Robust boundary conditions for stochastic incompletely parabolic systems of equations, Energy-stable global radial basis function methods on summation-by-parts form, Nonlinear boundary conditions for initial boundary value problems with applications in computational fluid dynamics, A physics-based open atmosphere boundary condition for height-coordinate atmospheric models, A new multigrid formulation for high order finite difference methods on summation-by-parts form, Analysis of the SBP-SAT stabilization for finite element methods. I: Linear problems, Energy-stable boundary conditions based on a quadratic form: applications to outflow/open-boundary problems in incompressible flows, An energy stable coupling procedure for the compressible and incompressible Navier-Stokes equations, The relation between primal and dual boundary conditions for hyperbolic systems of equations, Kinetic functions for nonclassical shocks, entropy stability, and discrete summation by parts, Stability of discontinuous Galerkin spectral element schemes for wave propagation when the coefficient matrices have jumps, A split-form, stable CG/DG-SEM for wave propagation modeled by linear hyperbolic systems, Multigrid schemes for high order discretizations of hyperbolic problems, The Number of Boundary Conditions for Initial Boundary Value Problems, Stability of wall boundary condition procedures for discontinuous Galerkin spectral element approximations of the compressible Euler equations, The spatial operator in the incompressible Navier-Stokes, Oseen and Stokes equations, Analysis of Artificial Dissipation of Explicit and Implicit Time-Integration Methods, A skew-symmetric energy and entropy stable formulation of the compressible Euler equations, On stochastic investigation of flow problems using the viscous Burgers' equation as an example, Provably non-stiff implementation of weak coupling conditions for hyperbolic problems

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• Review of summation-by-parts schemes for initial-boundary-value problems
• Entropy stable wall boundary conditions for the three-dimensional compressible Navier-Stokes equations
• Weak and strong wall boundary procedures and convergence to steady-state of the Navier-Stokes equations
• Variance reduction through robust design of boundary conditions for stochastic hyperbolic systems of equations
• Optimal time splitting for two- and three-dimensional Navier-Stokes equations with mixed derivatives
• A stable and conservative interface treatment of arbitrary spatial accuracy
• Numerical solution of problems on unbounded domains. A review
• Finite volume methods, unstructured meshes and strict stability for hyperbolic problems
• Boundary conditions for a divergence-free velocity-pressure formulation of the Navier-Stokes equations
• A stable high-order finite difference scheme for the compressible Navier-Stokes equations, far-field boundary conditions
• High-order local non-reflecting boundary conditions: a review
• Simulation of dynamic earthquake ruptures in complex geometries using high-order finite difference methods
• Energy stable flux reconstruction schemes for advection-diffusion problems
• Accurate partial difference methods. II: Non-linear problems
• Spectral methods on arbitrary grids
• A Skew-Symmetric Discontinuous Galerkin Spectral Element Discretization and Its Relation to SBP-SAT Finite Difference Methods
• Energy decay of vortices in viscous fluids: an applied mathematics view
• Entropy Stable Spectral Collocation Schemes for the Navier--Stokes Equations: Discontinuous Interfaces
• Initial boundary value problems for incompletely parabolic systems
• Unified Analysis of Discontinuous Galerkin Methods for Elliptic Problems
• A Stable Penalty Method for the Compressible Navier–Stokes Equations: I. Open Boundary Conditions
• High Order Difference Methods for Time Dependent PDE
• ENTROPY STABLE APPROXIMATIONS OF NAVIER–STOKES EQUATIONS WITH NO ARTIFICIAL NUMERICAL VISCOSITY
• Initial boundary value problems for hyperbolic systems
• Well-Posed Boundary Conditions for the Navier--Stokes Equations