Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
De Sterck, H.
Low, B. C.
and
Poedts, S.
1998.
Complex magnetohydrodynamic bow shock topology in field-aligned low-β flow around a perfectly conducting cylinder.
Physics of Plasmas,
Vol. 5,
Issue. 11,
p.
4015.
Myong, R.S
and
Roe, P.L
1998.
On Godunov-Type Schemes for Magnetohydrodynamics.
Journal of Computational Physics,
Vol. 147,
Issue. 2,
p.
545.
De Sterck, H.
Deconinck, H.
Poedts, S.
and
Roose, D.
1999.
Hyperbolic Problems: Theory, Numerics, Applications.
p.
195.
De Sterck, H.
Low, B. C.
and
Poedts, S.
1999.
Characteristic analysis of a complex two-dimensional magnetohydrodynamic bow shock flow with steady compound shocks.
Physics of Plasmas,
Vol. 6,
Issue. 3,
p.
954.
De Sterck, H.
and
Poedts, S.
2000.
Intermediate Shocks in Three-Dimensional Magnetohydrodynamic Bow-Shock Flows with Multiple Interacting Shock Fronts.
Physical Review Letters,
Vol. 84,
Issue. 24,
p.
5524.
De Sterck, H.
2001.
Hyperbolic theory of the “shallow water” magnetohydrodynamics equations.
Physics of Plasmas,
Vol. 8,
Issue. 7,
p.
3293.
Myong, R. S.
and
Han, M. S.
2003.
A Computational Method for the Rotationally Symmetric Magnetohydrodynamic Equations.
Torrilhon, M
2003.
Non-uniform convergence of finite volume schemes for Riemann problems of ideal magnetohydrodynamics.
Journal of Computational Physics,
Vol. 192,
Issue. 1,
p.
73.
Narapusetty, Balachandrudu
and
Roy, Subrata
2003.
Comparison of SGM and LDG Methods for Magnetofluid Problems.
D'Ambrosio, Domenic
Pandolfi, Maurizio
and
Giordano, Domenico
2004.
Electromagnetic Fluid Dynamics for Aerospace Applications. Part II: Numerical Simulations Using Different Physical Models.
Torrilhon, M.
and
Balsara, D.S.
2004.
High order WENO schemes: investigations on non-uniform convergence for MHD Riemann problems.
Journal of Computational Physics,
Vol. 201,
Issue. 2,
p.
586.
D'Ambrosio, Domenic
and
Pandolfi, Maurizio
2004.
An Upwind Numerical Method for the Prediction of Ideal MHD High Speed Flows.
D’Ambrosio, Domenic
and
Giordano, Domenico
2007.
Electromagnetic Fluid Dynamics for Aerospace Applications.
Journal of Thermophysics and Heat Transfer,
Vol. 21,
Issue. 2,
p.
284.
Marszalek, Wieslaw
and
Trzaska, Zdzislaw W.
2007.
New Solutions of Resistive MHD Systems With Singularity Induced Bifurcations.
IEEE Transactions on Plasma Science,
Vol. 35,
Issue. 2,
p.
509.
Marszalek, Wieslaw
and
Trzaska, Zdzislaw W.
2007.
Singularity induced bifurcations of dissipative MHD systems.
p.
1.
Goedbloed, J. P.
2008.
Time reversal duality of magnetohydrodynamic shocks.
Physics of Plasmas,
Vol. 15,
Issue. 6,
DELMONT, P.
KEPPENS, R.
and
VAN DER HOLST, B.
2009.
An exact Riemann-solver-based solution for regular shock refraction.
Journal of Fluid Mechanics,
Vol. 627,
Issue. ,
p.
33.
Delmont, P
and
Keppens, R
2010.
Regular shock refraction in planar ideal MHD.
Journal of Physics: Conference Series,
Vol. 216,
Issue. ,
p.
012007.
DELMONT, P.
and
KEPPENS, R.
2011.
Parameter regimes for slow, intermediate and fast MHD shocks.
Journal of Plasma Physics,
Vol. 77,
Issue. 2,
p.
207.
Hu, Yanbo
and
Sheng, Wancheng
2012.
The Riemann problem of conservation laws in magnetogasdynamics.
Communications on Pure and Applied Analysis,
Vol. 12,
Issue. 2,
p.
755.