
CTH
 Referenced in 22 articles
[sw08719]
 threedimensional shock wave physics code. CTH is a software system under development at Sandia ... multidimensional, multimaterial, large deformation, strong shock wave physics. Onedimensional rectilinear, cylindrical ... models that are useful for simulating strong shock, large deformation events. Both tabular and analytic...

RAMSES
 Referenced in 24 articles
[sw18064]
 potential spurious effects associated with shock waves propagation in the resulting AMR grid are discussed...

VTF
 Referenced in 16 articles
[sw07556]
 fragmentation of brittle materials under shock wave impact. At present, all VTF solvers use time...

EASY  FIT
 Referenced in 9 articles
[sw05976]
 permitted, also hyperbolic ones describing shock waves. Advection, diffusion, transport, or related equations...

SOVA
 Referenced in 3 articles
[sw03274]
 code isillustrated by the modeling of shock wave interaction with a dusty thermal layer...

Cosmos++
 Referenced in 4 articles
[sw16653]
 relativistic shock tubes, shock collisions, magnetosonic shocks, Alfvén wave propagation, blast waves, magnetized Bondi flow...

CERANSMHD
 Referenced in 3 articles
[sw22767]
 over a flat plate due to shock waveboundary layer interaction. The CERANSMHD code...

ECHO
 Referenced in 21 articles
[sw22269]
 GRMD). ECHO is aimed at providing a shockcapturing conservative method able to work ... reconstruction methods are implemented and a twowave approximate Riemann solver is used. The induction ... free condition of the magnetic field in shockcapturing methods. The limiting case of magnetodynamics ... propagation of large amplitude circularly polarized Alfven waves. In particular, we show that reconstruction based...

COREL
 Referenced in 1 article
[sw19875]
 coefficients at Mach numbers normal to shock waves of 1.3 or less...

W12SC3
 Referenced in 1 article
[sw19876]
 coefficients at Mach numbers normal to shock waves of 1.3 or less...

BLAST
 Referenced in 1 article
[sw27464]
 zones and subzonal resolution of the shock waves, which is simply not possible with...

PARIS
 Referenced in 1 article
[sw29304]
 melt and with reflection of the shock wave from the material free surface, cavities nucleate...

LPMD
 Referenced in 1 article
[sw12495]
 equilibrium MD (NEMD) simulations such as shock wave propagation, projectile impacts, cluster collisions, shearing, deformation...

EFREE
 Referenced in 3 articles
[sw11919]
 specifically, as the ion acoustic wave becomes a shock with Debye length scales, the assumptions...

GRHydro
 Referenced in 4 articles
[sw08469]
 aligned and oblique planar shocks, cylindrical explosions, magnetic rotors, Alfvén waves and advected loops...

CESE
 Referenced in 10 articles
[sw08558]
 solution element (SE), and a novel shock capturing strategy without using a Riemann solver ... types of flow problems, such as detonation waves, shock/acoustic wave interaction, cavitating flows, and chemical...

PetClaw
 Referenced in 1 article
[sw06807]
 application to a novel problem involving elastic waves in a heterogeneous medium. Very finely resolved ... used to demonstrate the suppression of shock formation in this system...

KASIMIR
 Referenced in 1 article
[sw06727]
 program simulates the physical phenomena inside a shock tube on a conventional personal computer ... minute). It calculates the complete x,twave plan which is immediately displayed ... variables of state (e.g. pressure, temperature, density, shock velocity, chemical composition) at each position. Moreover...

AMAZONSC
 Referenced in 3 articles
[sw06134]
 density field in a manner similar to shock capturing in compressible flow. No surface tracking ... free surface and thus can model wave breaking. An artificial compressibility method is used...

ANSYS
 Referenced in 643 articles
[sw00044]
 ANSYS offers a comprehensive software suite that spans...