PLUTO Test Problems
4.4-patch2
|
► HD | |
► Disk_Planet | |
init.c | Disk-Planet interaction problem |
► Isentropic_Vortex | |
init.c | Isentropic vortex problem |
► Jet | |
init.c | Hydrodynamic jet propagation in 2D cylindrical coordinates |
► Mach_Reflection | |
init.c | Double Mach reflection test problem |
► Riemann_2D | |
init.c | Two-Dimensional Riemann problem |
► Sedov | |
init.c | Sedov-Taylor blast wave |
► Sod | |
init.c | Sod shock tube problem |
► Stellar_Wind | |
init.c | Stellar wind test problem |
► Stratified_Atmosphere | |
init.c | Hydrostatic atmosphere in a smoothed gravitational potential |
► Underexpanded_Jet | |
init.c | Underexpanded jet |
► Viscosity | |
► Flow_Past_Cylinder | |
init.c | Viscous compressible flow past a cylinder |
visc_nu.c | Specification of explicit first and second viscosity coefficients |
► Taylor_Couette | |
init.c | Taylor-Couette Flow in 2D cylindrical coordinates |
► MHD | |
► Blast | |
► CT_Average | |
init.c | MHD blast wave (CT comparison version) |
init.c | MHD blast wave |
► CP_Alfven | |
► CT_Average | |
init.c | Circularly polarized Alfven waves |
init.c | Circularly polarized Alfven waves |
► FARGO | |
► Spherical_Disk | |
init.c | Accretion disk in 3D spherical coordinates |
► Field_Loop | |
► CT_Average | |
init.c | Advection of a magnetic field loop |
init.c | Advection of a magnetic field loop |
► Hall_MHD | |
► Current_Sheet | |
init.c | Reconnection test (Harris sheet) in 2D |
► Whistler_Waves | |
► Alfven | |
init.c | Whistler Waves |
init.c | Whistler Waves |
► Jet | |
init.c | Axisymmetric jet propagation |
► Orszag_Tang | |
► CT_Average | |
init.c | Orszag-Tang MHD vortex |
init.c | Orszag-Tang MHD vortex |
► Rayleigh_Taylor | |
init.c | Rayleigh-Taylor instability setup for hydro or MHD |
► Resistive_MHD | |
► Current_Sheet | |
init.c | Reconnection test (Harris sheet) in 2D |
res_eta.c | Define the components of the diagonal resistive tensor |
► Field_Diffusion | |
init.c | Magnetic field diffusion in 2D and 3D |
► Linear_Force_Free | |
► tmp | |
init.c | Diffusion of a linear force-free magnetic field in cylindrical coordinates |
init.c | Diffusion of a linear force-free magnetic field in cylindrical coordinates |
► Rotor | |
init.c | MHD Rotor test problem |
► Shearing_Box | |
► CT_Average | |
► Axisym_SB | |
init.c | Shearing Box setup |
► C_FILES | |
ct_emf_average.c | Collects different EMF averaging schemes |
ct_flux.c | Define point and diffusive fluxes for CT |
init.c | Shearing Box setup |
init.c | Shearing Box setup |
► Perrone | |
init.c | Shearing Box setup |
init.c | Shearing Box setup |
tc_kappa.c | Define the thermal conduction coefficients |
► Shock_Cloud | |
► Reverse | |
init.c | MHD Shock Cloud interaction |
init.c | MHD Shock Cloud interaction |
► Thermal_Conduction | |
► Blast | |
init.c | 2D Blast wave problem with thermal conduction |
► TCFront | |
init.c | Propagation of a conduction front |
► Torus | |
init.c | Magnetized accretion torus |
► Particles | |
► CR | |
► Bell_Instability | |
► Astronum_Proceeding_Test | |
init.c | Bell instability setup |
particles_init.c | Initialize particles for the Bell instability test- |
init.c | Bell instability setup |
particles_init.c | Initialize particles for the Bell instability test- |
► GC | |
init.c | Numerical benchmarks for Guiding Center method (fluid background) |
init_v00.c | Numerical benchmarks for Guiding Center method (fluid background) |
init_WithAnalisys.c | Contains basic functions for problem initialization |
particles_init.c | Numerical benchmarks for Guiding Center method (particles) |
► Gyration | |
init.c | Single CR particle gyration (and drift) test |
main.random.c | PLUTO main function |
particles_init.c | Initialize particle for gyration test |
► Relative_Drift | |
init.c | Fluid-CR relative drift test |
particles_init.c | Set particles initial conditions for the fluid-CR relative drift test |
► Xpoint | |
init.c | X-point test particle acceleration |
init_v00.c | X-point test particle acceleration |
particles_init.c | Initialize test particles for the Xpoint problem |
► Dust | |
► Epicyclic | |
init.c | Epicycle test |
particles_init.c | Initialize the particle distrbution for the Epicyclic problem |
► Orbital_Test | |
init.c | Orbital (Kepler) test problem for dust particles |
particles_init.c | Orbital test for dust particles |
► RV_Drift | |
eos.c | Implementation of the isothermal EOS |
init.c | Radial & vertical drift test problem |
particles_init.c | Radial and vertical drift test |
► Streaming_Instability | |
► ShearingBox | |
► Flock | |
init.c | Streaming Instability Setup |
particles_dust_update_cart.c | Dust particle mover in Cartesian coordinates |
particles_init.c | Initialize particle distrbution, set B.C. and injection |
► Occam | |
init.c | Streaming Instability Setup |
particles_init.c | Initialize particle distrbution, set B.C. and injection |
particles_init_v00.c | Initialize particle distrbution, set B.C. and injection |
init.c | Streaming Instability Setup |
particles_init.c | Initialize particle distrbution, set B.C. and injection |
► LP | |
► Advect | |
init.c | A simple advection test for Particles as Lagrangian tracers |
► Planar_Shock | |
init.c | Planar shock wave problem with particles |
particles_init.c | Initialize particle distrbution, set B.C. and injection |
► RadRMHD | |
► Blast | |
init.c | Radiation pulse test in optically thin and thick media |
► Magnetized_Blast | |
init.c | Radiative magnetized blast wave |
► Shadow | |
init.c | Shadow test |
► Shocks | |
init.c | Relativistic shock tube problems |
► ResRMHD | |
► Blast | |
► Poster | |
init.c | Relativistic magnetized blast wave |
res_eta.c | Define the scalar resistivity for the RMHD equations |
► Timing | |
ct_maxwell_solver.c | Maxwell solver for the Resistive RMHD equations |
init.c | Relativistic magnetized blast wave |
res_eta.c | Define the scalar resistivity for the RMHD equations |
init.c | Relativistic magnetized blast wave |
res_eta.c | Define the scalar resistivity for the RMHD equations |
► Rotated_Sod | |
get_nghost.c | Return the number of ghost zones |
init.c | Rotated shock tube problem |
res_eta.c | Define the scalar resistivity for the RMHD equations |
► Rotor | |
init.c | Resistive RMHD rotor test problem in 2 dimensions |
res_eta.c | Define the scalar resistivity for the RMHD equations |
► RHD | |
► Blast3D | |
► Pavan_New_Test | |
init.c | Relativistic Blast Wave with Newtonian Gravity |
init.c | Relativistic Blast Wave with Newtonian Gravity |
init_v00.c | Relativistic Blast Wave with Newtonian Gravity |
► Jet | |
► 2D | |
init.c | Relativistic jet propagation |
init.c | Relativistic jet propagation |
► Riemann_2D | |
init.c | Two-dimensional Riemann problem |
► Shock_Tubes | |
init.c | Relativistic shock tube problems |
► RMHD | |
► Blast | |
► v00 | |
init.c | Relativistic magnetized blast wave |
init.c | Relativistic magnetized blast wave |
► CP_Alfven | |
init.c | Circularly polarized Alfven waves for RMHD |
► Jet | |
init.c | Relativistic magnetized jet in axisymmetric coordinates |
► KH | |
init.c | Relativistic magnetized Kelvin-Helmholtz problem |
► Rotor | |
init.c | RMHD rotor test problem in 2 or 3 dimensions |
► Shock_Cloud | |
init.c | Relativistic shock-cloud interaction |
► Sod | |
init.c | Collection of relativistic MHD shock-tube problems |