(dp0
S'secondaryTemperature'
p1
(lp2
S'Surface Interactions'
p3
aS'secondary electron temperature (from electron impact)'
p4
aS'float'
p5
aS'[eV]'
p6
aF2.0
asS'sunZ'
p7
(lp8
g3
aS'z-component of sun direction'
p9
ag5
aS'[-]'
p10
aF1.0
asS'sunY'
p11
(lp12
g3
aS'y-component of sun direction'
p13
ag5
ag10
aF0.0
asS'ionDt'
p14
(lp15
S'Plasma'
p16
aS'Maximum integration time step for ion 1st population (automatic if negative)'
p17
ag5
aS'[s]'
p18
aF-1.0
asS'sunX'
p19
(lp20
g3
aS'x-component of sun direction'
p21
ag5
ag10
aF0.0
asS'electronDistrib2'
p22
(lp23
g16
aS'Name of the VolDistrib class to be used for the 2nd electron population'
p24
aS'string'
p25
aS'None'
p26
aS'GlobalMaxwellBoltzmannVolDistrib'
p27
asS'numericsMonitorStep'
p28
(lp29
S'Outputs'
p30
aS'time step for numerical behaviour monitoring (0.0 => none, -n => n times)'
p31
ag5
ag18
aF-100.0
asS'volInteractType'
p32
(lp33
S'Volume Interactions'
p34
aS'Type of volume interaction, UI-buildable class name derived from VolInteract'
p35
ag25
aS'None'
p36
aS'CEXInteractor'
p37
asS'verbose'
p38
(lp39
g30
aS'Verbosity level (level of screen messages about code execution)'
p40
aS'int'
p41
aS'None'
p42
aI3
asS'ionDensity'
p43
(lp44
g16
aS'Ion density (1st population)'
p45
ag5
aS'[m-3]'
p46
aF1000000.0
asS'ionVz'
p47
(lp48
g16
aS'Ion drift velocity along z axis (1st population)'
p49
ag5
aS'[m/s]'
p50
aF0.0
asS'ionVy'
p51
(lp52
g16
aS'Ion drift velocity along y axis (1st population)'
p53
ag5
ag50
aF0.0
asS'ionVx'
p54
(lp55
g16
aS'Ion drift velocity along x axis (1st population)'
p56
ag5
ag50
aF0.0
asS'avPartNbPerCell'
p57
(lp58
g16
aS'average number of super-particle per cell'
p59
ag5
aS'None'
p60
aF5.0
asS'inducedConductivity'
p61
(lp62
g3
aS'if 0 no induced conductivity, if 1 induced conductivity turned on'
p63
ag41
aS'None'
p64
aI0
asS'poissonBCParameter2'
p65
(lp66
S'Poisson equation'
p67
aS'2nd parameter that can be used by some BC types'
p68
ag5
aS'[varies]'
p69
aF0.0
asS'poissonBCParameter1'
p70
(lp71
g67
aS'Parameter that can be used by some BC types (e.g. 1/rn exponent)'
p72
ag5
ag69
aF0.0
asS'ionDt2'
p73
(lp74
g16
aS'Maximum integration time step for ion 2nd population (automatic if negative)'
p75
ag5
ag18
aF-1.0
asS'currentLogPlotFlag'
p76
(lp77
g30
aS'plot log10 of currents? 0=no, 1=yes(log only), 2=both'
p78
ag41
aS'None'
p79
aI2
asS'outPart2VolInteract'
p80
(lp81
g34
aS'Type of particles for second population produced in volume interaction'
p82
ag25
aS'None'
p83
aS'Xe'
p84
asS'electronSpeedUp'
p85
(lp86
g16
aS'Numerical times speed-up factor for electron 1st population'
p87
ag5
ag10
aF1.0
asS'ionDensity2'
p88
(lp89
g16
aS'Ion density (2nd population)'
p90
ag5
aS'[#/m3]'
p91
aF0.0
asS'electronTemperature'
p92
(lp93
g16
aS'Electron temperature(1st population)'
p94
ag5
ag6
aF1.0
asS'environmentType'
p95
(lp96
g16
aS'Name of the Environment class to be used'
p97
ag25
aS'None'
p98
aS'BiMaxwellianEnvironment'
p99
asS'outPop2SpeedUpVolInteract'
p100
(lp101
g34
aS'Numerical times speed-up factor for first population produced in volume interaction'
p102
ag5
ag10
aF1.0
asS'sourceSpeedUp4'
p103
(lp104
S'Spacecraft'
p105
aS'Numerical times speed-up factor for 4th source population'
p106
ag5
ag10
aF1.0
asS'sourceSpeedUp3'
p107
(lp108
g105
aS'Numerical times speed-up factor for 3rd source population'
p109
ag5
ag10
aF1.0
asS'sourceSpeedUp2'
p110
(lp111
g105
aS'Numerical times speed-up factor for 2nd source population'
p112
ag5
ag10
aF1.0
asS'crossSectionVolInteract'
p113
(lp114
g34
aS'Cross section for volume interaction, either a float (its value [m2]) or the name of the file describing sigma(E)'
p115
ag25
aS'[m2] or None'
p116
aS'1.0e-18'
p117
asS'electronSecondaryDensification'
p118
(lp119
g3
aS'densification coefficient for secondary electron superparticles (from electron impact)'
p120
ag5
ag10
aF1.0
asS'sourceSpeedUp1'
p121
(lp122
g105
aS'Numerical times speed-up factor for 1st source population'
p123
ag5
ag10
aF1.0
asS'secondaryDt'
p124
(lp125
g3
aS'Maximum integration time step for all types of secondary electrons (automatic if negative)'
p126
ag5
ag18
aF-1.0
asS'parameter2VolInteract'
p127
(lp128
g34
aS'2nd parameter of volume interactor'
p129
ag5
aS'[variable]'
p130
aF0.1
asS'erosionProductDt'
p131
(lp132
g3
aS'Maximum integration time step for erosion products (automatic if negative)'
p133
ag5
ag18
aF-1.0
asS'tolLinearSys'
p134
(lp135
g67
aS'Tolerance for linear system solver (used for capacitance matrix inversion)'
p136
ag5
ag10
aF1.0E-8
asS'iterGradientNl'
p137
(lp138
g67
aS'Maximum iteration number for conjugate gradient non-linear Poisson Solver'
p139
ag41
aS'None'
p140
aI100
asS'scPotMapMonitorStep'
p141
(lp142
g30
aS'time step for spacecraft local potential monitoring (0 => none, -n => n times)'
p143
ag5
ag18
aF-10.0
asS'scPotMonitorStep'
p144
(lp145
g30
aS'time step for spacecraft ground potential monitoring (0 => none, -n => n times)'
p146
ag5
ag18
aF-100.0
asS'initPotFlag'
p147
(lp148
g105
aS'flag to define initial pot: 0 => set to 0, 1 => set to global initPot, 2 => set to local potential defined as SC Dirichlet condition'
p149
ag41
aS'None'
p150
aI1
asS'protonSecondaryDensification'
p151
(lp152
g3
aS'densification coefficient for secondary electron superparticles (from proton impact)'
p153
ag5
ag10
aF1.0
asS'ionDistrib2'
p154
(lp155
g16
aS'Name of the VolDistrib class to be used for ions 2nd population'
p156
ag25
aS'None'
p157
aS'PICVolDistrib'
p158
asS'sourceDt4'
p159
(lp160
g105
aS'Maximum integration time step for particles from 4th source (automatic if negative)'
p161
ag5
ag18
aF-1.0
asS'sourceDt3'
p162
(lp163
g105
aS'Maximum integration time step for particles from 3rd source (automatic if negative)'
p164
ag5
ag18
aF-1.0
asS'plasmaPotMapMonitorStep'
p165
(lp166
g30
aS'time step for plasma potential monitoring (0 => none, -n => n times)'
p167
ag5
ag18
aF-10.0
asS'densitiesMapsMonitorStep'
p168
(lp169
g30
aS'time step for densities monitoring (0 => none, -n => n times)'
p170
ag5
ag18
aF-10.0
asS'electronSecondaryEmission'
p171
(lp172
g3
aS'bits go by groups of 3 (bit0=on/off, bit1=simulate_secondary_elec_dynamics/don t, bit2=allow_secondaries_of-secondaries/don t), while groups of 3 bits are for ambient population 1, ambient population 2, source 1, source 2, source 3 and source 4 resp.'
p173
ag41
aS'None'
p174
aI0
asS'sourceDt2'
p175
(lp176
g105
aS'Maximum integration time step for particles from 2nd source (automatic if negative)'
p177
ag5
ag18
aF-1.0
asS'sourceDt1'
p178
(lp179
g105
aS'Maximum integration time step for particles from 1st source (automatic if negative)'
p180
ag5
ag18
aF-1.0
asS'electronDt2'
p181
(lp182
g16
aS'Maximum integration time step for electron 2nd population (automatic if negative)'
p183
ag5
ag18
aF-1.0
asS'plasmaSpeedUp'
p184
(lp185
S'Simulation control'
p186
aS'Numerical times speed-up factor for plasma (plasma dynamics is only integrated over a fraction 1/plasmaSpeedUp of actual physical time )'
p187
ag5
ag10
aF1.0
asS'tolGradient'
p188
(lp189
g67
aS'Tolerance for conjugate gradient Poisson Solver'
p190
ag5
ag10
aF1.0E-4
asS'linearPoisson'
p191
(lp192
g67
aS'if 1 linear Poisson solver, if 0 non-linear'
p193
ag41
aS'None'
p194
aI0
asS'ionTemperature'
p195
(lp196
g16
aS'Ion temperature (1st population)'
p197
ag5
ag6
aF1.0
asS'duration'
p198
(lp199
g186
aS'Duration of the simulation'
p200
ag5
ag18
aF0.008
asS'sourceParticleType4'
p201
(lp202
g105
aS'Type of particles emitted by source 4'
p203
ag25
aS'None'
p204
aS'In+'
p205
asS'sourceParticleType3'
p206
(lp207
g105
aS'Type of particles emitted by source 3'
p208
ag25
aS'None'
p209
aS'Cs+'
p210
asS'ionDistrib'
p211
(lp212
g16
aS'Name of the VolDistrib class to be used for ions'
p213
ag25
aS'None'
p214
ag158
asS'sourceParticleType2'
p215
(lp216
g105
aS'Type of particles emitted by source 2'
p217
ag25
aS'None'
p218
aS'electron'
p219
asS'electronSpeedUp2'
p220
(lp221
g16
aS'Numerical times speed-up factor for electron 2nd population'
p222
ag5
ag10
aF1.0
asS'sourceParticleType1'
p223
(lp224
g105
aS'Type of particles emitted by source 1'
p225
ag25
aS'None'
p226
aS'Xe+'
p227
asS'volumeConductivity'
p228
(lp229
g3
aS'if 0 no volume conductivity, if 1 volume conductivity turned on'
p230
ag41
aS'None'
p231
aI0
asS'plasmaUnderRelaxTimeCstt'
p232
(lp233
g186
aS'under-relaxation time constant for plasma (default=0 => no under-relaxation)'
p234
ag5
ag18
aF0.0
asS'photoElectronTemperature'
p235
(lp236
g3
aS'photo-electron temperature'
p237
ag5
ag6
aF2.0
asS'ionTemperature2'
p238
(lp239
g16
aS'Ion temperature (2nd population)'
p240
ag5
ag6
aF1000.0
asS'sourceType4'
p241
(lp242
g105
aS'Name of the SurfDistrib class to be used on the spacecraft as source No 4'
p243
ag25
aS'None'
p244
aS'LocalMaxwellSurfDistrib'
p245
asS'sourceType3'
p246
(lp247
g105
aS'Name of the SurfDistrib class to be used on the spacecraft as source No 3'
p248
ag25
aS'None'
p249
ag245
asS'photoElectronDensification'
p250
(lp251
g3
aS'densification coefficient for photo electron superparticles'
p252
ag5
ag10
aF1.0
asS'sourceType2'
p253
(lp254
g105
aS'Name of the SurfDistrib class to be used on the spacecraft as source No 2'
p255
ag25
aS'None'
p256
aS'MaxwellianThruster'
p257
asS'sourceType1'
p258
(lp259
g105
aS'Name of the SurfDistrib class to be used on the spacecraft as source No 1'
p260
ag25
aS'None'
p261
ag245
asS'parameter3VolInteract'
p262
(lp263
g34
aS'3rd parameter of volume interactor'
p264
ag5
ag130
aF0.0
asS'outPop1SpeedUpVolInteract'
p265
(lp266
g34
ag102
ag5
ag10
aF1.0
asS'electronDensity'
p267
(lp268
g16
aS'Electron density (1st population)'
p269
ag5
ag46
aF1000000.0
asS'protonSecondaryEmission'
p270
(lp271
g3
aS'if 0, no secondary emission, if 1, secondary emission turned on'
p272
ag41
aS'None'
p273
aI0
asS'cumulateBetweenSteps'
p274
(lp275
g30
aS'cumulate currents and densities between monitoring steps for improved statistics (0=no, 1=yes(improved only), 2=both)?'
p276
ag41
aS'None'
p277
aI1
asS'ionType2'
p278
(lp279
g16
aS'Second ion population'
p280
ag25
aS'None'
p281
aS'H+'
p282
asS'scCurrentMapMonitorStep'
p283
(lp284
g30
aS'time step for spacecraft local currents monitoring (0 => none, -n => n times)'
p285
ag5
ag18
aF-10.0
asS'secondarySpeedUp'
p286
(lp287
g3
aS'Numerical times speed-up factor for all types of secondary electrons'
p288
ag5
ag10
aF1.0
asS'materialPropertyPlots'
p289
(lp290
g30
aS'flag for plotting material properties: 0=no, 1=yes'
p291
ag41
aS'None'
p292
aI1
asS'ionVz2'
p293
(lp294
g16
aS'Ion drift velocity along z axis (2nd population)'
p295
ag5
ag50
aF0.0
asS'initPot'
p296
(lp297
g105
aS'initial potential'
p298
ag5
aS'[V]'
p299
aF0.0
asS'ionType'
p300
(lp301
g16
aS'First ion population'
p302
ag25
aS'None'
p303
ag282
asS'ionSpeedUp'
p304
(lp305
g16
aS'Numerical times speed-up factor for ion 1st population'
p306
ag5
ag10
aF1.0
asS'inPart1VolInteract'
p307
(lp308
g34
aS'Type of particles for first interacting population'
p309
ag25
aS'None'
p310
ag227
asS'poissonBCType'
p311
(lp312
g67
aS'Poisson boundary conditions type, see documentation'
p313
ag41
aS'None'
p314
aI2
asS'poissonVerbose'
p315
(lp316
g30
aS'Same as verbose, but specific to Poisson solver'
p317
ag41
aS'None'
p318
aI3
asS'inPop1VolInteract'
p319
(lp320
g34
aS'Defines first interacting population (e.g. ions for CEX), must be one of ions1, ions2, elec1, elec2, source1... source4, photoElec, secondElec'
p321
ag25
aS'None'
p322
aS'source1'
p323
asS'surfaceConductivity'
p324
(lp325
g3
aS'if 0 no surface conductivity, if 1 surface conductivity turned on'
p326
ag41
aS'None'
p327
aI0
asS'erosionProductSpeedUp'
p328
(lp329
g3
aS'Numerical times speed-up factor erosion products'
p330
ag5
ag10
aF1.0
asS'Bz'
p331
(lp332
S'B Field'
p333
aS'z-component of the magnetic field'
p334
ag5
aS'[T]'
p335
aF0.0
asS'finalCumulationStartTime'
p336
(lp337
g30
aS'if finalCumulation=1 starting time for final dens-current cumulation, if finalCumulation=2 fraction of the simulation at which cumulation starts'
p338
ag5
aS'[s] or [-]'
p339
aF0.5
asS'By'
p340
(lp341
g333
aS'y-component of the magnetic field'
p342
ag5
ag335
aF0.0
asS'Bx'
p343
(lp344
g333
aS'x-component of the magnetic field (uniform over the computation box)'
p345
ag5
ag335
aF0.0
asS'volInteract'
p346
(lp347
g34
aS'Flag to turn on volume interaction: 0 => off, 1 => on, x>0 => on, superparticles densified by x'
p348
ag5
aS'None'
p349
aF0.0
asS'plasmaDt'
p350
(lp351
g186
aS'Time step for global plasma dynamics (semi-automatic if 0: determined by lower level time step = smallest matter dt)'
p352
ag5
ag18
aF0.0
asS'ionSpeedUp2'
p353
(lp354
g16
aS'Numerical times speed-up factor for ion 2nd population'
p355
ag5
ag10
aF1.0
asS'simulationDt'
p356
(lp357
g186
aS'Time step for global simulation dynamics (semi-automatic if 0: determined by lower level time step = plasmaDt)'
p358
ag5
ag18
aF0.0
asS'erosionProductDensification'
p359
(lp360
g3
aS'densification coefficient for erosion product superparticles'
p361
ag5
ag10
aF1.0
asS'electricCircuitFilename'
p362
(lp363
g105
aS'File name of extra electric devices (RLCV)'
p364
ag25
aS'None'
p365
aS'circuit.txt'
p366
asS'densityLogPlotCutoff'
p367
(lp368
g30
aS'cutoff for density log plots'
p369
ag5
aS'[ecu/m3]'
p370
aF0.001
asS'ionVy2'
p371
(lp372
g16
aS'Ion drift velocity along y axis (2nd population)'
p373
ag5
ag50
aF0.0
asS'inPop2VolInteract'
p374
(lp375
g34
aS'Defines second interacting population (e.g. neutrals for CEX), must be one of ions1, ions2, elec1, elec2, source1... source4, photoElec, secondElec'
p376
ag25
aS'None'
p377
aS'fractionOfFirstPopSource'
p378
asS'finalCumulation'
p379
(lp380
g30
aS'cumulate currents and densities at the end of simulation ? 0=no, 1or2=yes'
p381
ag41
aS'None'
p382
aI2
asS'iterNewton'
p383
(lp384
g67
aS'Maximum iteration number for Newton algorithm in non-linear Poisson solving'
p385
ag41
aS'None'
p386
aI50
asS'outPop2DtVolInteract'
p387
(lp388
g34
aS'Maximum integration time step for first population produced in volume interaction (automatic if negative)'
p389
ag5
ag18
aF-1.0
asS'CSat'
p390
(lp391
g105
aS'absolute spacecraft capacitance'
p392
ag5
aS'[F]'
p393
aF2.0E-10
asS'electronDistrib'
p394
(lp395
g16
aS'Name of the VolDistrib class to be used for electrons'
p396
ag25
aS'None'
p397
aS'GlobalMaxwellBoltzmannVolDistrib'
p398
asS'inPart2VolInteract'
p399
(lp400
g34
aS'Type of particles for second interacting population'
p401
ag25
aS'None'
p402
ag84
asS'outPop1DtVolInteract'
p403
(lp404
g34
ag389
ag5
ag18
aF-1.0
asS'electronDensity2'
p405
(lp406
g16
aS'Electron density (2nd population)'
p407
ag5
ag91
aF0.0
asS'currentLogPlotCutoff'
p408
(lp409
g30
aS'cutoff for current log plots'
p410
ag5
aS'[A/m2]'
p411
aF1.0E-12
asS'tolNewton'
p412
(lp413
g67
aS'Tolerance for Newton algorithm loop in non-linear Poisson solving'
p414
ag5
ag10
aF0.02
asS'densityLogPlotFlag'
p415
(lp416
g30
aS'plot log10 of densities? 0=no, 1=yes(log only), 2=both'
p417
ag41
aS'None'
p418
aI2
asS'sourceFlag4'
p419
(lp420
g105
aS'Flag for defining artificial source No 4 on the spacecraft: 0 => none, 1 => yes, x => number of super-particles densified by x'
p421
ag5
ag10
aF0.0
asS'outPart1VolInteract'
p422
(lp423
g34
aS'Type of particles for first population produced in volume interaction'
p424
ag25
aS'None'
p425
ag227
asS'sourceFlag3'
p426
(lp427
g105
aS'Flag for defining artificial source No 3 on the spacecraft: 0 => none, 1 => yes, x => number of super-particles densified by x'
p428
ag5
ag10
aF0.0
asS'ionVx2'
p429
(lp430
g16
aS'Ion drift velocity along x axis (2nd population)'
p431
ag5
ag50
aF0.0
asS'electronDt'
p432
(lp433
g16
aS'Maximum integration time step for electron 1st population (automatic if negative)'
p434
ag5
ag18
aF-1.0
asS'sourceFlag2'
p435
(lp436
g105
aS'Flag for defining artificial source No 2 on the spacecraft: 0 => none, 1 => yes, x => number of super-particles densified by x'
p437
ag5
ag10
aF0.0
asS'sourceNb'
p438
(lp439
g105
aS'Number of particle sources: not to be modified in UI, but only in defaultGlobalParam.py if the number of sources is modified in defaultGlobalParam.py'
p440
ag41
aS'None'
p441
aI4
asS'sourceFlag1'
p442
(lp443
g105
aS'Flag for defining artificial source No 1 on the spacecraft: 0 => none, 1 => yes, x => number of super-particles densified by x'
p444
ag5
ag10
aF0.0
asS'iterGradient'
p445
(lp446
g67
aS'Maximum iteration number for conjugate gradient Poisson Solver'
p447
ag41
aS'None'
p448
aI100
asS'electronTemperature2'
p449
(lp450
g16
aS'Electron temperature(2nd population)'
p451
ag5
ag6
aF1000.0
asS'tolGradientNl'
p452
(lp453
g67
aS'Tolerance for conjugate gradient Poisson Solver when non-linear solving'
p454
ag5
ag10
aF1.0E-4
asS'electricCircuitIntegrate'
p455
(lp456
g105
aS'SC electric circuit integration: 0=no change, 1=floating'
p457
ag41
aS'None'
p458
aI1
asS'erosion'
p459
(lp460
g3
aS'bits go by groups of 3 (bit0=on/off, bit1=eroded_products_dynamics/don t, bit2=unused), while groups of 3 bits are for ambient population 1, ambient population 2, source 1, source 2, source 3 and source 4 resp.'
p461
ag41
aS'None'
p462
aI0
asS'secondaryFromProtonTemperature'
p463
(lp464
g3
aS'secondary electron temperature (from proton impact)'
p465
ag5
ag6
aF2.0
asS'photoEmission'
p466
(lp467
g3
aS'if 0 no photo-emission, if 1 photo-emission turned on, if 3 turned on with photo-electron dynamics modelling, iF 4 more (hence 5 or 7) uses user-locally-defined sun flux instead of sun direction'
p468
ag41
aS'None'
p469
aI0
asS'parameter1VolInteract'
p470
(lp471
g34
aS'1st parameter of volume interactor'
p472
ag5
ag130
aF0.05
asS'iterLinearSys'
p473
(lp474
g67
aS'Maximum iteration number for linear system solver (used for capacitance matrix inversion)'
p475
ag41
aS'None'
p476
aI10000
asS'particleTrajectoriesNb'
p477
(lp478
g30
aS'number of particle trajectories per PIC population'
p479
ag41
aS'None'
p480
aI0
as.