This paper identifies a new pathology that can be found for numerical simulations of nonlinear conservation law systems. Many of the difficulties already identified in the literature (rarefaction shocks, carbuncle phenomena, slowly moving shocks, wall heating, etc) can be traced to insufficient numerical dissipation, and the current case is no different. However, the details of the case we study here are somewhat unique in that the solution which is found by the numerics is very weak and can fail to have a derivative anywhere in the post-shock region.
A new theory for the calculation of the successive positions of a shock is suggested here. For one-d...
A new theory for the calculation of the successive positions of a shock is suggested here. For one-d...
AbstractDevelopments of the Hull elastoplastic numerical method lead to nonconservative versions, wh...
A new theory for the calculation of the successive positions of a shock was suggested in Part I. For...
A physically based impact model-already known and exploited in the field of sound synthesis-is studi...
A physically based impact model-already known and exploited in the field of sound synthesis-is studi...
A new theory for the calculation of the successive positions of a shock was suggested in Part I. For...
A physically based impact modelalready known and exploited in the field of sound synthesis-is studie...
We construct a solution to a 2 × 2 strictly hyperbolic system of conservation laws, showing that the...
AbstractA new theory for the calculation of the successive positions of a shock was suggested in Par...
In this paper we are going to study the gas evolution dynamics of the exact and approximate Riemann ...
Abstract. We present the analysis of convergence of the locally inertial Godunov method with dynamic...
Abstract: A method for solving systems of conservation laws, which is a generalization of ...
We are interested in the numerical resolution of hyperbolic systems of conservation laws which don&a...
Abstract: It is shown that the schemes of discontinuous Galerkin method can be interpreted...
A new theory for the calculation of the successive positions of a shock is suggested here. For one-d...
A new theory for the calculation of the successive positions of a shock is suggested here. For one-d...
AbstractDevelopments of the Hull elastoplastic numerical method lead to nonconservative versions, wh...
A new theory for the calculation of the successive positions of a shock was suggested in Part I. For...
A physically based impact model-already known and exploited in the field of sound synthesis-is studi...
A physically based impact model-already known and exploited in the field of sound synthesis-is studi...
A new theory for the calculation of the successive positions of a shock was suggested in Part I. For...
A physically based impact modelalready known and exploited in the field of sound synthesis-is studie...
We construct a solution to a 2 × 2 strictly hyperbolic system of conservation laws, showing that the...
AbstractA new theory for the calculation of the successive positions of a shock was suggested in Par...
In this paper we are going to study the gas evolution dynamics of the exact and approximate Riemann ...
Abstract. We present the analysis of convergence of the locally inertial Godunov method with dynamic...
Abstract: A method for solving systems of conservation laws, which is a generalization of ...
We are interested in the numerical resolution of hyperbolic systems of conservation laws which don&a...
Abstract: It is shown that the schemes of discontinuous Galerkin method can be interpreted...
A new theory for the calculation of the successive positions of a shock is suggested here. For one-d...
A new theory for the calculation of the successive positions of a shock is suggested here. For one-d...
AbstractDevelopments of the Hull elastoplastic numerical method lead to nonconservative versions, wh...