private void GenerateStart()
{
var sc = new SemiConductor(x, t);
var path = @"C:\Users\Vosming\source\repos\Zad2\Values.txt";
string[] data = new string[5];
data[0] = "GaInAs";
data[1] = $"Calculated Values for Temperature = {t}K, and X fraction of {x}";
data[2] = $"Energy_C = {sc.Energy_C()}eV | Energy_HH = {sc.Energy_HH()}eV | Energy_LH = {sc.Energy_LH()}eV | Energy_SH = {sc.Energy_SH()}eV";
data[3] = $"e mass = {sc.Mass_e()} | HH mass = {sc.Mass_HH()} | LH mass = {sc.Mass_LH()} | Delta SO = {sc.DeltaSO()}";
data[4] = $"Energy Gap of GaAsIn {sc.Energy_Gap()}eV | GaAs {sc.Energy_Gap_GaAs()}eV | InAs {sc.Energy_Gap_InAs()}eV";
System.IO.File.WriteAllLines(path, data);
InterpolationPlotModel.Series.Clear();
InterpolationPlotModel.Series.Add(new FunctionSeries(y => sc.Energy_Gap_Function(y, t), 0, 1, 0.005));
InterpolationPlotModel.InvalidatePlot(true);
}
private void GenerateSaveAllNoStrains()
{
var sc = new SemiConductor(x, t);
var path = @"C:\Users\Vosming\source\repos\Zad2\AllValuesNoStrains.txt";
string[] data = new string[2];
data[0] = "Coefficient_X;Temperature;Energy_Gap;E_C;E_HH;E_LH;E_SH;mass_e;mass_HH;mass_LH";
data[1] = $"{x};{t};{sc.Energy_Gap()};{sc.VBO()+sc.Energy_Gap()};{sc.VBO()};{sc.VBO()};{sc.VBO()-sc.DeltaSO()};{sc.Mass_e()};{sc.Mass_HH()};{sc.Mass_LH()}";
System.IO.File.WriteAllLines(path, data);
}
private void GenerateSaveAll()
{
var path = @"C:\Users\Vosming\source\repos\Zad2\AllValues.txt";
string[] data = new string[101];
//data[0] = "Coefficient_X;Temperature;Energy_Gap;E_C;E_HH;E_LH;E_SH;mass_e;mass_HH;mass_LH";
//data[1] = $"{x};{t};{sc.Energy_Gap()};{sc.Energy_C()};{sc.Energy_HH()};{sc.Energy_LH()};{sc.Energy_SH()};{sc.Mass_e()};{sc.Mass_HH()};{sc.Mass_LH()}";
for (int i = 0; i < 101; i++)
{
var sc = new SemiConductor(i, t);
data[i] = $"{x};{sc.Energy_Gap()};{sc.Energy_C()};{sc.Energy_HH()};{sc.Energy_LH()};{sc.Energy_SH()};{sc.Mass_e()};{sc.Mass_HH()};{sc.Mass_LH()}";
}
System.IO.File.WriteAllLines(path, data);
}