KVElementDensity* KVElementDensityTable::FindElementBySymbol(const Char_t* X) const { // Search table for an element with the given symbol. Case-insensitive. TString x = X; x.ToUpper(); TIter next(tobj); KVElementDensity* elem; while ((elem = (KVElementDensity*)next())) { TString el = elem->GetElementSymbol(); el.ToUpper(); if (x == el) return elem; } return 0x0; }
void KVRangeYanez::AddElementalMaterial(Int_t z, Int_t a) { // Adds a material composed of a single isotope of a chemical element. // If the isotope (a) is not specified, we create a material containing the naturally // occuring isotopes of the given element, weighted according to their abundance. // If the mass is given, the material symbol will be "AX" where X is the symbol for the element // e.g. "48Ca", "124Sn", etc. // and the material name will be "Xxx-A" where Xxx is the name of the element // e.g. "Calcium-48", "Tin-124", etc. // Otherwise, we just use the element symbol and name for naturally-occurring // mixtures of atomic elements ("Ca", "Calcium", etc.). KVIonRangeTableMaterial* mat; if (!a) { mat = MakeNaturallyOccuringElementMixture(z); } else { if (!gNDTManager) { Error("AddElementalMaterial", "Nuclear data tables have not been initialised"); return; } KVElementDensity* ed = (KVElementDensity*)gNDTManager->GetData(z, a, "ElementDensity"); if (!ed) { Error("AddElementalMaterial", "No element found in ElementDensity NDT-table with Z=%d", z); return; } TString state = "solid"; if (ed->IsGas()) state = "gas"; mat = new KVRangeYanezMaterial(this, Form("%s-%d", ed->GetElementName(), a), Form("%d%s", a, ed->GetElementSymbol()), state, ed->GetValue(), z, a); mat->Initialize(); } CheckMaterialsList(); fMaterials->Add(mat); mat->ls(); }
KVIonRangeTableMaterial* KVRangeYanez::MakeNaturallyOccuringElementMixture(Int_t z) { // create a material containing the naturally occuring isotopes of the given element, // weighted according to their abundance. if (!gNDTManager) { Error("MakeNaturallyOccuringElementMixture", "Nuclear data tables have not been initialised"); return NULL; } KVElementDensity* ed = (KVElementDensity*)gNDTManager->GetData(z, z, "ElementDensity"); if (!ed) { Error("AddElementalMaterial", "No element found in ElementDensity NDT-table with Z=%d", z); return 0x0; } TString state = "solid"; if (ed->IsGas()) state = "gas"; KVRangeYanezMaterial* mat = new KVRangeYanezMaterial(this, ed->GetElementName(), ed->GetElementSymbol(), state, ed->GetValue()); KVNucleus nuc(z); KVNumberList isotopes = nuc.GetKnownARange(); isotopes.Begin(); while (!isotopes.End()) { nuc.SetA(isotopes.Next()); Double_t abundance = nuc.GetAbundance() / 100.; if (abundance > 0.) mat->AddMixtureElement(z, nuc.GetA(), 1, abundance); } mat->Initialize(); return (KVIonRangeTableMaterial*)mat; }