5 molecules.potential().nIds(),
11 molecules.potential().nIds(),
17 molecules.potential().nIds(),
23 molecules.potential().nIds(),
37 molecules.potential().nIds()
42 Info <<
" Creating number density field for "
43 << molecules.potential().idList()[rN] <<
endl;
52 "rhoN_" + molecules.potential().idList()[rN],
67 Info <<
" Creating total number density field" <<
endl;
84 totalRhoN.correctBoundaryConditions();
92 molecules.potential().nIds()
97 Info <<
" Creating mass density field for "
98 << molecules.potential().idList()[rM] <<
endl;
107 "rhoM_" + molecules.potential().idList()[rM],
122 Info <<
" Creating total mass density field" <<
endl;
139 totalRhoM.correctBoundaryConditions();
147 molecules.potential().nIds()
152 Info <<
" Creating velocity field for "
153 << molecules.potential().idList()[v] <<
endl;
162 "velocity_" + molecules.potential().idList()[v],
178 Info <<
" Creating total velocity field" <<
endl;
221 molecules.potential().nIds()
226 Info <<
" Creating temperature field for "
227 << molecules.potential().idList()[t] <<
endl;
236 "temperature_" + molecules.potential().idList()[t],
251 Info <<
" Creating total temperature field" <<
endl;
268 totalTemperature.correctBoundaryConditions();
277 molecules.potential().nIds()
282 Info <<
" Creating mean kinetic energy field for "
283 << molecules.potential().idList()[mKE] <<
endl;
292 "meanKE_" + molecules.potential().idList()[mKE],
299 dimensionSet(1, 2, -2, 0, 0, 0, 0),
307 Info <<
" Creating total mean kinetic energy field" <<
endl;
320 dimensionSet(1, 2, -2, 0, 0, 0, 0),
324 totalMeanKE.correctBoundaryConditions();