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 |