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Simulation IndexΒΆ

Following is a list of simulation numbers with one-line descriptions. Click on the simulation number to see the complete Lua program for that simulation.

Number Description
s1 Poisson solve on a 2D periodic grid, with Gaussian source
s2 Poisson solve on a 2D periodic grid, with anisotropic Gaussian source
s3 Poisson solve on a 2D periodic grid, with source a sum of two Gaussians
s4 Same as s3, but with different grid spacing in X and Y.
s5 1D Euler Sod-shock with sonic point in rarefaction. Wave-propagation algorithm.
s6 Exact solution to s5.
s7 Same as s5, except using the MUSCL-Hancock scheme.
s8 1D Euler shock with low density/pressure region. Wave-propagation scheme.
s9 Exact solution to s8.
s10 Same as s8, except using the MUSCL-Hancock scheme.
s11 1D Noh problem. Wave-propagation algorithm.
s12 Exact solution to s11.
s13 Same as s11, except using the MUSCL-Hancock scheme.
s14 1D Euler shock with a stationary contact discontinuity. Wave-propagation scheme.
s15 Exact solution to s14
s16 Same as s14, except using the MUSCL-Hancock scheme.
s17 1D Euler shock with two strong shocks. Wave-propagation scheme.
s18 Exact solution to s17
s19 Same as s17, except using the MUSCL-Hancock scheme.
s20 1D Euler with stationary contact discontinuity. Wave-propagation scheme.
s21 Exact solution to s20
s22 Same as s20, except using the MUSCL-Hancock scheme.
s23 1D Euler with slowly moving contact discontinuity. Wave-propagation scheme.
s24 Exact solution to s23
s25 Same as s23, except using the MUSCL-Hancock scheme.
s26 1D Euler with sharp spike in density. Wave-propagation scheme.
s27 Exact solution to s26
s28 Same as s26, except using the MUSCL-Hancock scheme.
s29 1D Euler Woodward-Collela blast wave problem. Wave-propagation scheme.
s30 Same as s29 run with higher-resolution to serve as an “exact” solution.
s31 Same as s29, except using the MUSCL-Hancock scheme.
s32 Slab RTE with Mie scattering with \(L=8\).
s33 Slab RTE with Haze-L phase function with \(L=82\).
s34 Same as s33 but with \(\mu_0=0.5\).
s35 Same as s33 but with \(\varpi=1.0\).
s36 Two-fluid shock problem with \(q_i/m_i = 1.0\).
s37 Two-fluid shock problem with \(q_i/m_i = 10.0\).
s38 Two-fluid shock problem with \(q_i/m_i = 100.0\)
s39 Two-fluid shock problem with \(q_i/m_i = 1000.0\)
s40 Dispersive Euler equations with \(\omega_c = 10\) and 100 cells.
s41 Exact solution of dispersive Euler equations.
s42 Dispersive Euler equations with \(\omega_c = 10\) and 200 cells.
s43 Dispersive Euler equations with \(\omega_c = 10\) and 300 cells.
s44 Dispersive Euler equations with \(\omega_c = 10\) and 400 cells.
s45 Dispersive Euler equations with \(\omega_c = 100\) and 200 cells.
s46 Dispersive Euler equations with \(\omega_c = 100\) and 400 cells.
s47 Sod-shock for dispersive Euler equations.
s48 Same as s45 but larger time-step.
s49 Wave-propagation scheme for Maxwell equation TM (8,5) mode, \(80\times 40\) grid.
s50 Same as s49 but with \(160\times 80\) grid.
s51 Same as s49 but with \(240\times 120\) grid.
s52 Same as s49 but with \(320\times 160\) grid.
s53 FDTD scheme for Maxwell equation TM (8,5) mode, \(80\times 40\) grid.
s54 Same as s53 but with \(160\times 80\) grid.
s55 Same as s53 but with \(240\times 120\) grid.
s56 Same as s53 but with \(320\times 160\) grid.
s57 Pulse in metal box with wave-propagation scheme.
s58 Pulse in metal box with FDTD scheme.
s59 Same as s58 but using a \(400 \times 400\) grid.
s60 Same as s58 but using a \(400 \times 400\) grid.
s61 1D Riemann problem with wave-propagation scheme.
s62 1D Riemann problem with FDTD scheme.
s63 FDTD scheme on dual Yee-cell for Maxwell equation TM (8,5) mode, \(80\times 40\) grid.
s64 FDTD scheme on dual Yee-cell for Maxwell equation. Pulse problem.
s65 Plasma wave beach problem, without the plasma. Using 100 cells.
s66 Plasma wave beach problem, without the plasma. Using 200 cells.
s67 Plasma wave beach problem using 100 cells.
s68 Plasma wave beach problem using 200 cells.
s69 Plasma wave beach problem using 400 cells.
s70 Plasma wave beach problem using 800 cells.
s71 Plasma wave beach problem using 1600 cells.
s72 Tunneling through an electron-cyclotron cutoff layer, 200 cells
s73 Tunneling through an electron-cyclotron cutoff layer, 400 cells
s74 Ion-cyclotron wave propagation in a 1D tokamak-like configuration, 400 cells.
s75 Ion-cyclotron wave propagation in a 1D tokamak-like configuration, 200 cells. This simulation does not work very well as the resolution is too low.
s76 Ion-cyclotron wave propagation in a 1D tokamak-like configuration, low-field incidence.
s77 1D Poisson convergence test with 8 elements.
s78 1D Poisson convergence test with 16 elements.
s79 1D Poisson convergence test with 32 elements.
s80 1D Poisson convergence test with 64 elements.
s81 1D Poisson convergence test with 8 elements and Dirichlet/Neumann Bcs.
s82 1D Poisson convergence test with 16 elements and Dirichlet/Neumann Bcs.
s83 1D Poisson convergence test with 32 elements and Dirichlet/Neumann Bcs.
s84 1D Poisson convergence test with 64 elements and Dirichlet/Neumann Bcs.
s85 2D Poisson convergence test with \(8\times 8\) elements.
s86 Same as s86, except with \(16 \times 16\) elements.
s87 Same as s86, except with \(32 \times 32\) elements.
s88 Same as s86, except with \(64 \times 64\) elements.
s89 1D Poisson convergence test, 3rd order scheme, with 4 elements.
s90 1D Poisson convergence test, 3rd order scheme, with 8 elements.
s91 1D Poisson convergence test, 3rd order scheme, with 16 elements.
s92 1D Poisson convergence test, 3rd order scheme, with 32 elements.
s93 1D Poisson convergence test, 4th order scheme, with 2 elements.
s94 1D Poisson convergence test, 4th order scheme, with 4 elements.
s95 1D Poisson convergence test, 4th order scheme, with 8 elements.
s96 1D Poisson convergence test, 4th order scheme, with 16 elements.
s97 2D Poisson convergence test, 3rd order scheme, with \(4\times 4\) elements.
s98 2D Poisson convergence test, 3rd order scheme, with \(8\times 8\) elements.
s99 2D Poisson convergence test, 3rd order scheme, with \(16\times 16\) elements.
s100 2D Poisson convergence test, 3rd order scheme, with \(32\times 32\) elements.
s101 2D Poisson convergence test with periodic BCs and \(32\times 32\) elements
s102 2D Poisson convergence test with periodic BCs and \(64\times 64\) elements
s103 2D Poisson convergence test with periodic BCs and \(128\times 128\) elements
s104 Temporal convergence study of Poisson bracket with Gaussian pulse. CFL 0.2.
s105 Temporal convergence study of Poisson bracket with Gaussian pulse. CFL 0.1.
s106 Temporal convergence study of Poisson bracket with Gaussian pulse. CFL 0.05.
s107 Temporal convergence study of Poisson bracket with Gaussian pulse. CFL 0.025.
s108 Same as s104, except with RK3 time-stepping.
s109 Same as s108. CFL 0.1.
s110 Same as s108. CFL 0.05.
s111 Same as s108. CFL 0.025.
s112 Convergence of Poisson bracket algorithm with 2nd order scheme, \(32\times 32\) grid.
s113 Convergence of Poisson bracket algorithm with 2nd order scheme, \(64\times 64\) grid.
s114 Convergence of Poisson bracket algorithm with 2nd order scheme, \(128\times 128\) grid.
s115 Convergence of Poisson bracket algorithm with 3rd order scheme, \(8\times 8\) grid.
s116 Same as s115, except with \(16\times 16\) grid.
s117 Same as s115, except with \(32\times 32\) grid.
s118 Rigid-body rotation problem for Poisson bracket, with \(32\times 32\) grid.
s119 Same as s118, except on \(64\times 64\) grid.
s120 Same as s118, except with 3-order spatial scheme.
s121 Swirling flow problem with 3-order spatial scheme on \(32\times 32\) grid.
s122 Same as s115 for testing enstrophy convergence. CFL of 0.2, central flux.
s123 Same as s122 for testing enstrophy convergence. CFL of 0.1, central flux.
s124 Same as s122 for testing enstrophy convergence. CFL of 0.05, central flux.
s125 Double shear problem, on \(64\times 64\) grid, DG 2, upwind fluxes.
s126 Same as s125, except with \(128\times 128\) grid points.
s127 Same as s125, except with DG3 scheme.
s128 Same as s126, except with DG3 scheme.
s129 Same as s125, except with CFL of 0.1.
s130 Same as s130, except with CFL of 0.05.
s131 Same as s125, except with a central flux.
s132 Same as s125, except with CFL of 0.1
s133 Same as s125, except with CFL of 0.05
s134 Vortex waltx problem, \(64 \times 64\) grid.
s135 Vortex waltx problem, \(128 \times 128\) grid.
s136 Vortex waltx problem, \(256 \times 256\) grid.
s137 Vortex waltx problem, DG3, \(32 \times 32\) grid.
s138 Vortex waltx problem, DG3, \(64 \times 64\) grid.
s139 Vortex waltx problem, DG3, \(128 \times 128\) grid.
s140 Vortex waltz problem, \(64 \times 64\) grid with central flux, CFL 0.2
s141 Vortex waltz problem, \(64 \times 64\) grid with central flux, CFL 0.1
s142 Vortex waltz problem, \(64 \times 64\) grid with central flux, CFL 0.05
s143 Vlasov free-streaming operator test. DG2, upwind flux on \(64 \times 64\) grid.
s144 Vlasov free-streaming operator test. DG2, upwind flux on \(32 \times 8\) grid.
s145 Vlasov free-streaming operator test. DG2, upwind flux on \(32 \times 16\) grid.
s146 Vlasov free-streaming operator test. DG3, upwind flux on \(32 \times 8\) grid.
s147 Vlasov free-streaming operator test. DG3, upwind flux on \(32 \times 16\) grid.
s148 Vlasov in potential well. DG2, upwind flux on \(32 \times 64\) grid.
s149 Vlasov in potential well. DG2, upwind flux on \(64 \times 128\) grid.
s150 Vlasov in quadratic potential well. DG2, upwind flux on \(64 \times 128\) grid.
s151 Vlasov-Poisson, Landau damping \(k=0.5\), \(T_e = 1.0\).
s152 Same as s151, except \(T_e = 0.5\).
s153 Same as s151, except \(T_e = 0.6\).
s154 Same as s151, except \(T_e = 0.75\).
s155 Same as s151, except \(T_e = 1.25\).
s156 Same as s151, except \(T_e = 1.5\).
s157 Same as s151, except \(T_e = 1.75\).
s158 Same as s151, except \(T_e = 1.8\).
s159 Same as s151, except \(T_e = 1.9\).
s160 Same as s151, except \(T_e = 2.0\).
s161 Same as s151, except \(T_e = 2.2\).
s162 Same as s151, except \(\alpha=0.5\). (Nonlinear Landau damping)
s163 Vlasov-Poisson, Landau damping \(k=\sqrt{0.08}\), \(T_e = 1.0\) on a large domain.
s164 Same as s163, except \(k=\sqrt{0.1}\).
s165 Same as s163, except \(k=\sqrt{0.12}\).
s166 Same as s163, except \(k=\sqrt{0.06}\).
s167 Same as s163, except \(k=0.25\).
s168 Same as s163, except \(k=0.5\).
s169 Same as s163, except \(k=0.75\).
s170 Same as s163, except \(k=1.0\).
s171 Same as s163, except \(k=2.5\).
s172 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 0.1\).
s173 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 0.5\).
s174 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 0.75\).
s175 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 1.0\).
s176 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 1.5\).
s177 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 2.0\).
s178 Ion-acoustic waves with quasi-neutrality condition and \(T_i/T_e = 0.3\).
s179 Vlasov-Poisson simulation to test momentum conservation, \(8\times 128\) cells.
s180 Same as s179, except \(8\times 32\) cells.
s181 Same as s179, except \(16\times 128\) cells.
s182 Same as s179, except \(32\times 128\) cells.
s183 Same as s179 except, \(64\times 128\) cells.
s184 Vlasov-Poisson simulation to test energy conservation, \(16\times 32\) cells, CFL 0.3.
s185 Same as s184, except CFL \(0.3/2\)
s186 Same as s184, except CFL \(0.3/4\)
s187 Same as s184, except CFL \(0.3/8\)
s188 Same as s179, except \(16\times 32\) cells.
s189 Same as s179, except \(16\times 64\) cells.
s190 Same as s179, except \(16\times 128\) cells.
s191 Same as s179 except, \(128\times 128\) cells.
s192 Vlasov-Poisson simulation to test energy conservation, \(16\times 32\) cells, CFL 0.2, DG3.
s193 Same as s192, except CFL \(0.1\).
s194 Same as s192, except CFL \(0.05\).
s195 Same as s192, except CFL \(0.025\).
s196 Vlasov-Poisson simulation to test momentum conservation, \(8\times 128\) cells, DG3
s197 Same as s196, except \(16\times 128\) cells.
s198 Same as s196, except \(32\times 128\) cells.
s199 Same as s196, except \(64\times 128\) cells.
s200 Same as s196, except \(128\times 128\) cells.
s201 Rigid-body flow with nodal DG updater, \(16\times 16\) cells.
s202 Rigid-body flow with nodal DG updater, \(32\times 32\) cells.
s203 Rigid-body flow with nodal DG updater, \(64\times 64\) cells.
s204 Rigid-body flow with nodal DG updater polyOrder 2, \(32\times 32\) cells.
s205 Swirling flow with nodal DG updater polyOrder 2, \(32\times 32\) cells.
s206 Helical flow with nodal DG updater polyOrder 2, \(16\times 16\times 16\) cells.
s207 Advection-diffusion test, 8 cells
s208 Advection-diffusion test, 16 cells
s209 Advection-diffusion test, 32 cells
s210 Advection-diffusion test, 64 cells
s211 Advection-diffusion test, 8 cells, 3-point flux
s212 Advection-diffusion test, 16 cells, 3-point flux
s213 Advection-diffusion test, 32 cells, 3-point flux
s214 Advection-diffusion test, 64 cells, 3-point flux
s215 Hasegawa-Wakatani, with adiabacity parameter 0.1
s216 Hasegawa-Wakatani, with adiabacity parameter 0.01
s217 Hasegawa-Wakatani, with adiabacity parameter 0.3
s218 Hasegawa-Wakatani, with adiabacity parameter 1.0
s219 Hasegawa-Wakatani, with adiabacity parameter 2.0
s220 1D Euler shock with low density/pressure region. Wave-propagation scheme with pressure/density fix. (See s8)
s221 Modified Hasegawa-Wakatani, with adiabacity parameter 0.5
s222 Modified Hasegawa-Wakatani, with adiabacity parameter 1.0
s223 Two-fluid 5-moment GEM challenge with zero guide field, \(256x128\) domain
s224 Two-fluid 5-moment GEM challenge with guide field 0.25, \(256x128\) domain
s225 Two-fluid 5-moment GEM challenge with guide field 0.5, \(256x128\) domain
s226 Two-fluid 5-moment GEM challenge with guide field 0.75, \(256x128\) domain
s227 Two-fluid 5-moment GEM challenge with guide field 1.0, \(256x128\) domain
s228 Two-fluid 5-moment GEM challenge with guide field 2.0, \(256x128\) domain
s229 Two-fluid 5-moment GEM challenge with guide field 5.0, \(256x128\) domain
s230 Two-fluid 5-moment GEM challenge with guide field 10.0, \(256x128\) domain
s231 Two-fluid 5-moment GEM challenge with zero guide field, \(512x256\) domain
s232 Two-fluid 5-moment GEM challenge with guide field 0.25, \(512x256\) domain
s233 Two-fluid 5-moment GEM challenge with guide field 0.5, \(512x256\) domain
s234 Two-fluid 5-moment GEM challenge with guide field 0.75, \(512x256\) domain
s235 Two-fluid 5-moment GEM challenge with guide field 1.0, \(512x256\) domain
s236 Same as 235, except using open BCs instead of walls
s237 Same as 235 (guide field 1.0), except with 5% perturbation instead of 10%.
s238 Two-fluid 5-moment GEM challenge, \(768\times768\) on \(25\times 25\) domain and open BCs
s239 Same as s238, except on a \(252\times 252\) grid.
s240 Same as s238, except on a \(512\times 512\) grid.
s241 Open domain reconnection on \(50\times 25\) domain, \(1024\times 512\) grid.
s242 Diffusion equation with RDG scheme, using 8 cells, polyOrder 1.
s243 Same as 242, except with 16 cells.
s244 Same as 242, except with 32 cells.
s245 Same as 242, except with 64 cells.
s246 Diffusion equation with RDG scheme, using 4 cells, polyOrder 2.
s247 Same as 246, except with 8 cells.
s248 Same as 246, except with 16 cells.
s249 Same as 249, except with 32 cells.
s250 Diffusion equation with RDG scheme in 2D, using \(8\times 8\) cells, polyOrder 1.
s251 Same as s250, except on \(16\times 16\) grid.
s252 Same as s250, except on \(32\times 32\) grid.
s253 Same as s250, except on \(64\times 64\) grid.
s254 Free streaming of particles on a bounded domain.
s255 Vlasov equation with fixed potential on a bounded domain.
s256 Open domain reconnection on \(50\times 25\) domain, \(1536\times 768\) grid.
s257 Blob simulation on \(30\times 20\) domain and \(96\times 64\) grid, no diffusion.
s258 Blob simulation on \(60\times 40\) domain and \(192\times 128\) grid, no diffusion.
s259 Same as s257, except with Rayleigh number \(1\times10^{4}\)
s260 Same as s259, except on \(192\times 128\) grid.
s261 Same as s260, except with Rayleigh number \(1\times10^{6}\)
s262 Same as s260, except with Rayleigh number \(1\times10^{8}\)
s263 Same as s260, except on a \(60\times 40\) domain.
s264 Same as s260, except on a \(60\times 40\) domain, \(384\times 256\) grid.
s265 Same as s260, except on a \(60\times 40\) domain and fixed BCs in X and periodic in Y.
s266 Same as s265, except on a \(384\times 256\) grid.
s267 Same as s266, except on a \(450\times 300\) grid.
s268 Same as s266, except with central fluxes.
s269 Free streaming of particles on a bounded domain, with partially reflecting walls. See s254.
s270 Open domain reconnection on \(50\times 25\) domain, \(250\times 125\) grid.
s271 Open domain reconnection on \(50\times 25\) domain, \(500\times 250\) grid.
s272 GEM challenge problem with 10-momnent equations, \(256\times 128\) grid.
s273 GEM challenge problem with 10-momnent equations, \(512\times 256\) grid.
s274 GEM challenge problem with 5-moment equations, \(512\times 256\) grid and open domain (see s231)
s275 Open domain reconnection with 10-moment equations, \(500\times 250\) grid. (See s271)
s276 Open domain reconnection with 10-moment equations, \(1000\times 500\) grid. (See s275)
s277 Same as s275 expect collision frequency of 1.0.
s278 Same as s275 expect collision frequency of 0.0.
s279 Same as s277 expect on \(1000\times 500\) grid.
s280 Same as s271 (5-moment) except on \(1000\times 500\) grid.
s281 Open domain reconnection with 10-moment equations, \(500\times 250\) grid with local relaxation heat-flux. (See s271)
s282 Same as s281, except on \(1000\times 500\) grid.
s283 Same as s281, except on \(250\times 125\) grid
s284 EM pulse in box (see s57). This is to test flux and electric field relations.
s285 EM pulse in box (see s57 and s284). With in-plane electric field.
s286 Ten-moment doubly periodic Harris sheet simulation to compare with PSC. On \(250\times 125\) grid.
s287 Same as s286, except on a \(1000\times 500\) grid.
s288 FDTD Maxwell solver, in preparation for FD/FV two-fluid scheme. (See s63).
s289 A plamsa in a box, perturbed with a EM pulse. Another attempt to nail down div(E) problems.
s290 Same as s286, except on a \(500\times 250\) grid.
s291 EM pulse in box (see s284). Using dimensional splitting.
s292 Same as s286, except using dimensional splitting.
s293 Same as s286, except using explicit RK4 source update (this just for comparsion with s286).
s294 Same as s292, except on a \(500\times 250\) grid.
s295 Same as s292, except on a \(500\times 250\) grid and \(100\times 50\) domain.
s296 Same as s295, except on a \(1000\times 500\) grid and \(100\times 50\) domain.
s297 Same as s282 (open domain reconnection), except using a dimensional splitting.
s298 Same as s296 (double periodic), except with collisional relaxation (elcCollisionFreq 1.0).
s299 Same as s296 (double periodic), except on \(2000\times 1000\).
s300 Same as s296 (double periodic), except with CFL of 0.95.
s301 Doubly periodic reconnection with 5-moment model. \(1000\times 500\) grid.
s302 Doubly periodic reconnection with 5-moment model. \(1000\times 500\) grid, on :math`200times 100` grid.
s303 Same as s302, except on \(2000\times 1000\).
s304 Two-fluid 5-moment GEM challenge with zero guide field, \(512x256\) grid, dimensional splitting
s305 Same as s304, except on double the domain and \(1024x512\) grid.
s306 Same as s304, except \(1024x512\) grid.
s307 Same as s296 (double periodic 10M), except using \(\eta J\) term and on \(500\times 250\) grid.
s308 Same as s296 (double periodic 10M), except using a perturbation of 0.5.
s309 Same as 301 (double periodic 5M), except enforcing quasi-neutrality
s310 Same as 309, with div(E) also enforced using hyperbolic cleaning.
s311 Same as 304, shorter wih more output and odd number of cells
s312 Same as 311, except with Ey initialized to equilibrium value.
s313 Same as 312, except with \(1601\times 801\) mesh.
s314 Same as s311, except both electrons and ions carry current, on a \(1001\times 501\) grid.
s315 Same as s296 (double tearing), except both electrons and ions carry current, and using different perturbation.
s316 Same as s315, except using \(k=1/\delta_i\).
s317 Same as s314, except fewer output files, and run longer
s318 Same s297 (open domain reconnection, 10M), except electrons and ions carry current
s319 Same as s280 (open domain reconnection, 5M), dimensional splitting, both electrons and ions carry current.
s320 Standard GEM reconnection, with 10M model and periodic in X and walls in Y
s321 Same as s320, except with wave number of ionSkinDepth.
s322 Same as s316, except using \(1002\times 502\) mesh.
s323 Same as s316, using no ion relaxation.
s324 Same as s316, with new equilibrium for double tearing (\(k=1/\delta_i\))
s325 Same as s324, expect with \(k=1/\delta_e\)
s326 Two-fluid, isothermal standard GEM reconnection.
s327 10-moment with anisotropic heat relaxation closure.
s328 Diffusion with Local DG scheme, same parameters as s245.
s329 Diffusion with modal DG scheme. Run to steady-state with sin(x) source. LDG-L scheme.
s330 Same as s329, except with LDG-R scheme.
s331 Same as s329, except with LDG-S scheme.
s332 Same as s329, except with RDG scheme.
s333 Decaying temperature problem, LDG-L scheme, 8 cells.
s334 Same as s333, except with LDG-R scheme, 8 cells.
s335 Same as s333, except with LDG-S scheme, 8 cells.
s336 Same as s333, except with RDG scheme, 8 cells.
s337 Same as s333 (LDG-L), except 16 cells.
s338 Same as s334 (LDG-R), except 16 cells.
s339 Same as s335 (LDG-S), except 16 cells.
s340 Same as s340 (RDG), except 16 cells.
s341 Same as s333 (LDG-L), except 32 cells.
s342 Same as s334 (LDG-R), except 32 cells.
s343 Same as s335 (LDG-S), except 32 cells.
s344 Same as s340 (RDG), except 32 cells.
s345 Same as s333 (LDG-L), except 4 cells. (This is out of whack, but needed for proposal)
s346 Same as s340 (RDG), except 4 cells. (This is out of whack, but needed for proposal)
s347 Linearized EM/GKE solver, polyOrder 1. Normalized \(\beta=0.0\), \(k_\perp^2=0.01\).
s348 Same as s347, except \(k_\perp^2=0.05\).
s349 Same as s347, except \(k_\perp^2=0.1\).
s350 Same as s347, except \(k_\perp^2=0.2\).
s351 Same as s347, except \(k_\perp^2=0.3\).
s352 Same as s347, except \(k_\perp^2=0.5\).
s353 Same as s347, except \(k_\perp^2=0.75\).
s354 Same as s347, except \(k_\perp^2=1.0\).
s355 Same as s347, except \(k_\perp^2=0.01\), polyOrder 2.
s356 Same as s348, except \(k_\perp^2=0.05\), polyOrder 2.
s357 Same as s349, except \(k_\perp^2=0.1\), polyOrder 2.
s358 Same as s350, except \(k_\perp^2=0.2\), polyOrder 2.
s359 Same as s351, except \(k_\perp^2=0.3\), polyOrder 2.
s360 Same as s352, except \(k_\perp^2=0.5\), polyOrder 2.
s361 Same as s353, except \(k_\perp^2=0.75\), polyOrder 2.
s362 Same as s354, except \(k_\perp^2=0.75\), polyOrder 2.
s363 Same as s357 (\(k_\perp^2=0.1\)), \(\beta=0.1\).
s364 Same as s363, except \(\beta=0.5\).
s365 Same as s363, except \(\beta=1.0\).
s366 Same as s363, except \(\beta=2.5\).
s367 Same as s363, except \(\beta=5.0\).
s368 Same as s363, except \(\beta=7.5\).
s369 Same as s363, except \(\beta=10.0\).
s370 Same as s357 (\(k_\perp^2=0.05\)), \(\beta=0.1\).
s371 Same as s370, except \(\beta=0.5\).
s372 Same as s370, except \(\beta=1.0\).
s373 Same as s370, except \(\beta=2.5\).
s374 Same as s370, except \(\beta=5.0\).
s375 Same as s370, except \(\beta=7.5\).
s376 Same as s370, except \(\beta=10.0\).
s377 Same as s357 (\(k_\perp^2=0.01\)), \(\beta=0.1\).
s378 Same as s377, except \(\beta=0.5\).
s379 Same as s377, except \(\beta=1.0\).
s380 Same as s377, except \(\beta=2.5\).
s381 Same as s377, except \(\beta=5.0\).
s382 Same as s377, except \(\beta=7.5\).
s383 Same as s377, except \(\beta=10.0\).
s384 Fixed \(\beta=10.0\), :math:k_perp^2=10^{-4}`.
s385 Fixed \(\beta=10.0\), :math:k_perp^2=0.75`.
s386 Fixed \(\beta=10.0\), :math:k_perp^2=1.0`.
s387 Nonlinear 1D GK/EM, \(\beta=10.0\), :math:k_perp^2=0.05`.
s388 Same as s387, except :math:k_perp^2=0.01`.
s389 2D Euler, equation smooth periodic problem on \(25\times 25\) grid.
s390 Same as s389, except \(50\times 50\) grid.
s391 Same as s389, except \(100\times 100\) grid.
s392 Same as s389, except \(200\times 200\) grid.
s393 Pulse in a box, to test energy conservation of Euler with solid walls.
s394 2D Riemann problem for Euler, Case 3 in Liska and Wendroff
s395 2D Riemann problem for Euler, Case 4 in Liska and Wendroff
s396 2D Riemann problem for Euler, Case 6 in Liska and Wendroff
s397 2D Riemann problem for Euler, Case 12 in Liska and Wendroff
s398 2D Riemann problem for Euler, Case 15 in Liska and Wendroff
s399 2D Riemann problem for Euler, Case 17 in Liska and Wendroff
s400 Noh problem, on \(200\times 200\) grid.
s401 Noh problem, on \(400\times 400\) grid.
s402 Rayleigh-Taylor instability for Euler equation
s403 Implosion problem, Euler equations, XY-YX updates
s404 Implosion problem, Euler equations, run to \(t=0.045\).
s405 Implosion problem, Euler equations, XY-XY updates
s406 Implosion problem, dimensionally unsplit scheme.
s407 Explosion problem, Euler equations.
s408 Spherical Riemann problem, 3D Euler equations on \(37\times 37\times 25\) grid.
s409 Same as s408, except \(75\times 75\times 50\) grid.
s410 Same as s408, except \(150\times 150\times 100\) grid.
s411 Same as s408, except done in axisymmetric geometry, for comparison with s408 etc.
s412 Vorticity generated by shock wave, Euler 3D test. On \(120\times 80\times 40\) grid.
s413 Same as s412, except on \(300\times 200\times 100\) grid.
s414 Five-moment LHDI simulation. Random initial perturbation
s415 2D Euler equations with embedded boundary: flow in nozzle
s416 2D Euler equations with embedded boundary: flow over wedge
s417 Same as s416, except on \(400\times 200\) grid.
s418 Mach 10 shock over 30 degree wedge formation of Mach stem.
s419 Same as s418, Roe fluxes.
s420 Mach 2 shock interacting with a cylinder.
s421 Same as s420, except using Roe-flux.
s422 Mach 3 interaction with two cylinders.
s423 Supersonic (Mach 2) flow over an ellipsoid. Axisymmetric case.
s424 Supersonic (Mach 2) flow over an ellipsoid.
s425 Same as s424, except on higher resolution grid.
s426 Island coalescence problem with 5-moment equations. See Karimaadi Phys. Rev. Letters, 107. 2011. \(640\times 320\)
s427 Same as s426, except \(1280\times 640\) grid
s428 Same as s426, except for \(\lambda = 10 d_i\).
s429 Same as s426, except for \(\lambda = 25 d_i\).
s430 Same as s426, except for \(\lambda = 15 d_i\).
s431 Same as s426, except for \(\lambda = 50 d_i\).
s432 Same as s426, except for \(\lambda = 100 d_i\).
s433 Island coalescence problem with 10-moment equations, \(\lambda = 5 d_i\) (See s426), \(640\times 320\) grid.
s434 Same as s433, except \(1280\times 640\) grid.
s435 Same as s433, except \(\lambda = 10 d_i\).
s436 Same as s433, except \(\lambda = 25 d_i\).
s437 Same as s433, except \(\lambda = 15 d_i\).
s438 2D Euler RT instability (Athena test)
s439 Same as s438, except on a \(300\times 900\) grid.
s440 Same as s438, except with random noise perturbation
s441 Same as s440, except on a \(300\times 900\) grid.
s442 3D Euler RT instability (Athena test), \(50\times 150\times 50\) grid.
s443 Same as s442, \(100\times 300\times 100\) grid
s444 Same as s443, \(100\times 300\times 100\) grid, with random perturbation
s445 Same as s444, \(200\times 600\times 200\) grid
s446 Same as s443, \(200\times 600\times 200\) grid
s447 Five-moment LHDI simulation. Same as s441, except on a \(500\times 500\) grid