public void CalculateFreeWaveFunction() { PrepareJob("CalculateFreeWaveFunction", FreeWaveStatusTitles); try { QQFreeState freeState = new QQFreeState(GetQQStateParam()) { CalculationCancelToken = JobCancelToken, StatusValues = StatusValues }; freeState.SearchEigenfunction(); // quit here if process has been aborted if (JobCancelToken.IsCancellationRequested) { LogMessages.Clear(); LogMessages.Append(LogHeader + LogFooter); return; } UpdateOutputParameters(freeState); LogMessages.Clear(); LogMessages.AppendLine(LogHeader + "#" + Environment.NewLine + "#"); LogMessages.AppendLine("Temperature DebyeMass SoftScale BoundMass Energy GammaDamp "); LogMessages.AppendLine("(MeV) (MeV) (MeV) (MeV) (MeV) (MeV) "); LogMessages.AppendLine(); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}", Temperature_MeV.ToString("G6"), DebyeMass_MeV.ToString("G6"), SoftScale_MeV.ToString("G6"), BoundMass_MeV.ToString("G6"), Energy_MeV.ToString("G6"), GammaDamp_MeV.ToString("G6"))); LogMessages.AppendLine(LogFooter); List <string> dataList = new List <string>(); dataList.Add(LogHeader + "#" + Environment.NewLine + "#"); dataList.AddRange(CreateWaveFunctionDataList(freeState)); File.WriteAllLines(YburnConfigFile.OutputPath + DataFileName, dataList); } catch { throw; } }
private void CompareResultsWithDataSet( QQDataSet dataSet ) { LogMessages.Clear(); LogMessages.AppendLine("Comparison of current results to archived data:"); LogMessages.AppendLine(); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}{8,-12}{9,-12}", "", "DebyeMass", "√<r²>", "SoftScale", "US_Scale", "BoundMass", "Energy", "GammaDamp", "GammaDiss", "GammaTot")); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}{8,-12}{9,-12}", "", "(MeV)", "(fm)", "(Mev)", "(Mev)", "(MeV)", "(MeV)", "(MeV)", "(MeV)", "(MeV)")); LogMessages.AppendLine(); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}{8,-12}{9,-12}", "Current:", DebyeMass_MeV.ToString("G6"), DisplacementRMS_fm.ToString("G6"), SoftScale_MeV.ToString("G6"), UltraSoftScale_MeV.ToString("G6"), BoundMass_MeV.ToString("G6"), Energy_MeV.ToString("G6"), GammaDamp_MeV.ToString("G6"), GammaDiss_MeV.ToString("G6"), GammaTot_MeV.ToString("G6"))); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}{8,-12}{9,-12}", "Archived:", dataSet.DebyeMass.ToString("G6"), dataSet.DisplacementRMS.ToString("G6"), dataSet.SoftScale.ToString("G6"), dataSet.UltraSoftScale.ToString("G6"), dataSet.BoundMass.ToString("G6"), dataSet.Energy.ToString("G6"), dataSet.GammaDamp.ToString("G6"), dataSet.GammaDiss.ToString("G6"), dataSet.GammaTot.ToString("G6"))); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}{8,-12}{9,-12}", "Deviation:", (DebyeMass_MeV / dataSet.DebyeMass - 1).ToString("G3"), (DisplacementRMS_fm / dataSet.DisplacementRMS - 1).ToString("G3"), (SoftScale_MeV / dataSet.SoftScale - 1).ToString("G3"), (UltraSoftScale_MeV / dataSet.UltraSoftScale - 1).ToString("G3"), (BoundMass_MeV / dataSet.BoundMass - 1).ToString("G3"), (Energy_MeV / dataSet.Energy - 1).ToString("G3"), (GammaDamp_MeV / dataSet.GammaDamp - 1).ToString("G3"), (GammaDiss_MeV / dataSet.GammaDiss - 1).ToString("G3"), (GammaTot_MeV / dataSet.GammaTot - 1).ToString("G3"))); LogMessages.AppendLine(); LogMessages.AppendLine(); }
public void CalculateDissociationDecayWidth() { PrepareJob("CalculateDissociationDecayWidth", BoundWaveStatusTitles); try { QQBoundState boundState = new QQBoundState(GetQQStateParam(), QuantumNumberN) { CalculationCancelToken = JobCancelToken, StatusValues = StatusValues }; boundState.SearchEigenfunction(); // quit here if process has been aborted if (JobCancelToken.IsCancellationRequested) { LogMessages.Clear(); LogMessages.Append(LogHeader + LogFooter); return; } UpdateOutputParameters(boundState); SetStatusVariables(CrossSectionStatusTitles); // calculate decay width and cross section DecayWidth decayWidth = new DecayWidth(JobCancelToken, boundState, MaxEnergy_MeV, EnergySteps, Temperature_MeV, StatusValues); decayWidth.CalculateGammaDiss(); // quit here if process has been aborted if (JobCancelToken.IsCancellationRequested) { LogMessages.Clear(); LogMessages.Append(LogHeader + LogFooter); return; } GammaDiss_MeV = decayWidth.GammaDiss_MeV; GammaTot_MeV = GammaDamp_MeV + GammaDiss_MeV; LogMessages.Clear(); LogMessages.AppendLine(LogHeader + "#" + Environment.NewLine + "#"); LogMessages.AppendLine("Temperature DebyeMass √<r²> SoftScale US_Scale BoundMass Energy GammaDamp GammaDiss GammaTot "); LogMessages.AppendLine("(MeV) (MeV) (fm) (Mev) (Mev) (MeV) (MeV) (MeV) (MeV) (MeV) "); LogMessages.AppendLine(); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}{8,-12}{9,-12}", Temperature_MeV.ToString("G6"), DebyeMass_MeV.ToString("G6"), DisplacementRMS_fm.ToString("G6"), SoftScale_MeV.ToString("G6"), UltraSoftScale_MeV.ToString("G6"), BoundMass_MeV.ToString("G6"), Energy_MeV.ToString("G6"), GammaDamp_MeV.ToString("G6"), GammaDiss_MeV.ToString("G6"), GammaTot_MeV.ToString("G6"))); LogMessages.Append(LogFooter); List <string> dataList = new List <string>(); dataList.Add(LogHeader + "#" + Environment.NewLine + "#"); dataList.AddRange(CreateWaveFunctionDataList(boundState)); dataList.Add(string.Empty); dataList.Add(string.Empty); dataList.AddRange(decayWidth.CrossSectionStringList); File.WriteAllLines(YburnConfigFile.OutputPath + DataFileName, dataList); } catch { throw; } }
public void CalculateBoundWaveFunction() { PrepareJob("CalculateBoundWaveFunction", BoundWaveStatusTitles); try { QQBoundState boundState = new QQBoundState(GetQQStateParam(), QuantumNumberN) { CalculationCancelToken = JobCancelToken, StatusValues = StatusValues, UseFixedAlpha = UseFixedAlpha }; boundState.SearchEigenfunction(); // quit here if process has been aborted if (JobCancelToken.IsCancellationRequested) { LogMessages.Clear(); LogMessages.Append(LogHeader + LogFooter); return; } UpdateOutputParameters(boundState); LogMessages.Clear(); LogMessages.AppendLine(LogHeader + "#" + Environment.NewLine + "#"); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}", "Temperature", "DebyeMass", "√<r²>", "SoftScale", "US_Scale", "BoundMass", "Energy", "GammaDamp")); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}", "(MeV)", "(MeV)", "(fm)", "(Mev)", "(Mev)", "(MeV)", "(MeV)", "(MeV)")); LogMessages.AppendLine(); LogMessages.AppendLine(string.Format("{0,-12}{1,-12}{2,-12}{3,-12}{4,-12}{5,-12}{6,-12}{7,-12}", Temperature_MeV.ToString("G6"), DebyeMass_MeV.ToString("G6"), DisplacementRMS_fm.ToString("G6"), SoftScale_MeV.ToString("G6"), UltraSoftScale_MeV.ToString("G6"), BoundMass_MeV.ToString("G6"), Energy_MeV.ToString("G6"), GammaDamp_MeV.ToString("G6"))); LogMessages.Append(LogFooter); List <string> dataList = new List <string>(); dataList.Add(LogHeader + "#" + Environment.NewLine + "#"); dataList.AddRange(CreateWaveFunctionDataList(boundState)); File.WriteAllLines(YburnConfigFile.OutputPath + DataFileName, dataList); } catch { throw; } }