run_comment = "mag_shock_2" log_file = "mag_shock_2.log" basenm = "mag_shock_2_" # This particular parfile is used as an example that is described in # detail in the users guide. ########################## # # # I/O PARAMETERS # # # ########################## ### Checkpoint Options ### checkpointFileIntervalTime = 100e-12 checkpointFileIntervalStep = 10000 ### Plot Options ### plotFileNumber = 0 plotFileIntervalStep = 10000 plotFileIntervalTime = 50e-12 plot_var_1 = "dens" plot_var_2 = "depo" plot_var_3 = "tele" plot_var_4 = "tion" plot_var_5 = "trad" plot_var_6 = "ye " plot_var_7 = "sumy" plot_var_8 = "magx" plot_var_9 = "magy" plot_var_10 = "magz" ### Restart Options ### restart = .False. checkpointFileNumber = 0 ######################################## # # # RADIATION/OPACITY PARAMETERS # # # ######################################## rt_useMGD = .true. rt_mgdNumGroups = 6 rt_mgdBounds_1 = 1.0e-01 rt_mgdBounds_2 = 1.0e+00 rt_mgdBounds_3 = 1.0e+01 rt_mgdBounds_4 = 1.0e+02 rt_mgdBounds_5 = 1.0e+03 rt_mgdBounds_6 = 1.0e+04 rt_mgdBounds_7 = 1.0e+05 rt_mgdFlMode = "fl_harmonic" rt_mgdFlCoef = 1.0 rt_mgdXlBoundaryType = "vacuum" rt_mgdXrBoundaryType = "vacuum" rt_mgdYlBoundaryType = "vacuum" rt_mgdYrBoundaryType = "vacuum" rt_mgdZlBoundaryType = "vacuum" rt_mgdZrBoundaryType = "vacuum" useOpacity = .True. ### Setting Initial magnetic field ######## sim_bxinit = 0.0 sim_byinit = 0.0 sim_bzinit = 1.0 # Hall effect ----------------------------------------- use_Hall = .true. # Biermann battery (Source implementation)------------- use_Biermann = .true. hy_biermannSource = .true. # Biermann battery (Flux implementation)------------- #use_Biermann = .True. #use_Biermann3T = .True. # Magnetic Resistivity -------------------------------- useMagneticResistivity = .false. #resistivitySolver = "explicit" #resistivityForm = "fullaniso" #useCrossMagRes = .true. # the eta_wedge term # Thermoelectric Terms -------------------------------- use_Seebeck = .false. use_CrossField = .false. use_Nernst = .false. ForceHydroLimit = .false. # Pure Hydro Limit (B=0) ### SET CHAMBER (HELIUM) OPACITY OPTIONS ### op_chamAbsorb = "op_tabpa" op_chamEmiss = "op_tabpe" op_chamTrans = "op_tabro" op_chamFileType = "ionmix4" op_chamFileName = "he-imx-005.cn4" ### SET TARGET (ALUMINUM) OPACITY OPTIONS ### op_targAbsorb = "op_tabpa" op_targEmiss = "op_tabpe" op_targTrans = "op_tabro" op_targFileType = "ionmix4" op_targFileName = "al-imx-003.cn4" ############################ # # # LASER PARAMETERS # # # ############################ useEnergyDeposition = .true. ed_maxRayCount = 10000 ed_gradOrder = 2 # Activate 3D-in-2D ray trace: #ed_laser3Din2D = .true #ed_laser3Din2DwedgeAngle = 0.1 ### LASER IO OPTIONS ### ed_useLaserIO = .true. ed_laserIOMaxNumberOfPositions = 10000 ed_laserIOMaxNumberOfRays = 128 ### SETUP LASER PULSES ### ed_numberOfPulses = 1 # Define Pulse 1: ed_numberOfSections_1 = 4 ed_time_1_1 = 0.0 ed_time_1_2 = 100e-12 ed_time_1_3 = 1.6e-9 ed_time_1_4 = 1.7e-9 ed_power_1_1 = 0.0 ed_power_1_2 = 1.13e+11 ed_power_1_3 = 1.13e+11 ed_power_1_4 = 0.0 ### SETUP LASER BEAM ### ed_numberOfBeams = 1 # Setup Gaussian Beam: ed_lensX_1 = -1500.0e-04 ed_lensY_1 = -2000.0e-04 ed_lensZ_1 = 0 ed_lensSemiAxisMajor_1 = 80.0e-04 ed_targetX_1 = 500.0e-04 ed_targetY_1 = 900.0e-04 ed_targetZ_1 = 0 ed_targetSemiAxisMajor_1 = 60e-4 ed_targetSemiAxisMinor_1 = 60e-4 ed_pulseNumber_1 = 1 ed_wavelength_1 = 1.053 ed_crossSectionFunctionType_1 = "gaussian1D" ed_gaussianExponent_1 = 2.0 ed_gaussianRadiusMajor_1 = 60e-4 ed_gaussianRadiusMinor_1 = 60e-4 ed_numberOfRays_1 = 4096 ed_gridType_1 = "regular1D" ed_gridnRadialTics_1 = 64 ed_semiAxisMajorTorsionAngle_1= 0.0 ed_semiAxisMajorTorsionAxis_1 = "x" ed_adjustBeamsTargetIntensity = .true. ################################# # # # CONDUCTION PARAMETERS # # # ################################# useDiffuse = .true. useConductivity = .true. diff_useEleCond = .true. diff_eleFlMode = "fl_larsen" diff_eleFlCoef = 0.06 diff_thetaImplct = 1.0 diff_eleXlBoundaryType = "neumann" diff_eleXrBoundaryType = "neumann" diff_eleYlBoundaryType = "neumann" diff_eleYrBoundaryType = "neumann" diff_eleZlBoundaryType = "neumann" diff_eleZrBoundaryType = "neumann" #################################### # # # HEAT EXCHANGE PARAMETERS # # # #################################### useHeatexchange = .true. ########################## # # # EOS PARAMETERS # # # ########################## eosModeInit = "dens_temp_gather" smallt = 1.0 smallx = 1.0e-99 eos_useLogTables = .false. smlrho = 1e-10 ############################ # # # HYDRO PARAMETERS # # # ############################ useHydro = .true. order = 1 # Interpolation order (first/second/third/fifth order) slopeLimiter = "minmod" # Slope limiters (minmod, mc, vanLeer, hybrid, limited) LimitedSlopeBeta = 1. # Slope parameter for the "limited" slope by Toro charLimiting = .true. # Characteristic limiting vs. Primitive limiting use_avisc = .true. # use artificial viscosity (originally for PPM) cvisc = 0.1 # coefficient for artificial viscosity use_flattening = .false. # use flattening (dissipative) (originally for PPM) use_steepening = .false. # use contact steepening (originally for PPM) use_upwindTVD = .false. # use upwind biased TVD slope for PPM (need nguard=6) RiemannSolver = "Roe" # Roe, HLL, HLLC, LLF, Marquina, hybrid entropy = .false. # Entropy fix for the Roe solver shockDetect = .false. # Shock Detect for numerical stability use_hybridOrder = .true. # Enforce Riemann density jump # Hydro boundary conditions: xl_boundary_type = "outflow" xr_boundary_type = "outflow" yl_boundary_type = "outflow" yr_boundary_type = "outflow" zl_boundary_type = "outflow" zr_boundary_type = "outflow" ############################## # # # INITIAL CONDITIONS # # # ############################## sim_targetRadius = 2000.0e-04 sim_targetHeight = 50.0e-04 sim_vacuumHeight = 900.0e-04 # Target material defaults set for Aluminum at room temperature: sim_rhoTarg = 2.7 sim_teleTarg = 300 sim_tionTarg = 300 sim_tradTarg = 300 ms_targA = 27 ms_targZ = 13 ms_targZMin = 0.01 eos_targEosType = "eos_tab" eos_targSubType = "ionmix4" eos_targTableFile = "al-imx-003.cn4" # Chamber material defaults set for Helium at pressure 1.6 mbar: sim_rhoCham = 1e-6 sim_teleCham = 300 sim_tionCham = 300 sim_tradCham = 300 ms_chamA = 4 ms_chamZ = 2 eos_chamEosType = "eos_tab" eos_chamSubType = "ionmix4" eos_chamTableFile = "he-imx-005.cn4" ########################### # # # TIME PARAMETERS # # # ########################### tstep_change_factor = 1.10 cfl = 0.1 dt_diff_factor = 1.0e+100 # Disable diffusion dt rt_dtFactor = 0.02 hx_dtFactor = 1.0e+100 dtmin = 1.0e-15 dtinit = 1.0e-15 dtmax = 5.0e-13 tmax = 3e-9 nend = 10000000 ########################### # # # MESH PARAMETERS # # # ########################### geometry = "cartesian" # Domain size: xmin = 0 xmax = 1000e-04 ymin = 0 ymax = 1000e-04 # Total number of blocks: nblockx = 5 nblocky = 5 lrefine_max = 5 lrefine_min = 2 refine_var_1 = "dens" refine_var_2 = "tele"