edge flag (int[edgeNb]) to tag thin
surface (2D) and thin wires (1D):
- bit 0: 0 = edge of a surface
1 = not a real edge but a wire
- bit 1: 0 = edge of a regular surface
1 = edge of a thin surface
hence: - edgeFlag=0 if edge of a regular surface
- edgeFlag=1 if this edge is indeed a wire
- edgeFlag=2 if edge of a thin surface
- nodeFlag=3 is forbidden (bits 0 and 1 are exclusive)
edge flag (int[edgeNb]) to tag special edges. :
- bit 0: 0 = not on a spacrecraft surface
1 = on a spacecraft surface
- bit 1: 0 = not on a thin SC surface
1 = on a thin SC surface
(meaningful only if bit 0 = 1)
- bit 2: 0 = not a wire-like boom
1 = wire-like boom (1D physical surface)
(meaningful only if 1st bit = 1 and 2nd bit = 0)
- bit 3: 0 = not a mesh boundary edge
1 = it is a mesh boundary edge
next bits may be used (transiently) to tag
special edges for monitoring...
Name of the local parameter: The (macro) electric node this element is related to (SC ground, array ground…) - (default param value: 0 (default electric node, related to SC ground) , mesh: SC , centring: 2 )
Name of the local parameter: If 1, secondary electron emission under electron impact is turned on and simulated - (default param value: 0 (no electron secondary emission) , mesh: SC , centring: 2 )
Name of the following parameter: Name of the file describing extra electric devices between electric (super-)nodes (RLCV) - (default value: circuit.txt, type: String)
Name of the following parameter: Flag controlling SC electric circuit integration:
- 0: do not integrate (constant initial potentials)
- 1: integrate
- 2: integrate with implicit scheme - (default value: 1, type: int)
Name of the following parameter: Name of the VolDistrib class to be used for electrons - (default value: GlobalMaxwellBoltzmannVolDistrib, type: String / Class)
Name of the following parameter: Name of the VolDistrib class to be used for the 2nd electron population - (default value: GlobalMaxwellBoltzmannVolDistrib, type: String/ Class)
Name of the following parameter: secondaryEmissionFlagUnderElectronImpact: : 0=no, 1=yes without secondary-electron dynamics, 3=yes with dynamics - (default value: 0, type: int)
emitted currents versus time (the data)
Dimension: [interactorNb+1][superNodeNb+1],
emCurSum[i][j] deals with interactor i-1,
super node j-1, and the sum if i=0 or j=0
Name of the following parameter: Name of the Environment class to be used (ex: BiMaxwellianEnvironment which will use the parameters below, or WorstCaseGeoEnvironment which will be self-contained) - (default value: BiMaxwellianEnvironment, type: String / Class)
eps0 -
Static variable in class spis.Util.Phys.Phys
Does the same job as extract(ParameterSet set) but for arrays of paramater sets:
extracts and returns subsets of parameters to be used by an Interactor
(as ParameterSet[]) from sets of a MaterialModel parameters (as ParameterSet[])
or to be used by a Function (as ParameterSet[])
from sets of Interactor parameters (as a ParameterSet[])
Extracts and returns a subset of parameters to be used by an Interactor
(as a ParameterSet) from a set of a MaterialModel parameters (as a ParameterSet),
or a subset of parameters to be used by a function (as a ParameterSet)
from a set of a Interactor parameters (as a ParameterSet),
Does the same job as extract(ParameterSet set) but for arrays of paramater sets:
extracts and returns subsets of parameters to be used by an Interactor
(as ParameterSet[]) from sets of a MaterialModel parameters (as ParameterSet[])
or to be used by a Function (as ParameterSet[])
from sets of Interactor parameters (as a ParameterSet[])