/// <summary>
/// Computes the refractive index of a material for given wavelength
/// with respect to dispersion.
/// </summary>
/// <remarks>
/// Dispersion formula is the Sellmeier equation,
/// http://en.wikipedia.org/wiki/Sellmeier_equation.
/// </remarks>
/// <param name="wavelength">Wavelength of the light (in micrometers).</param>
/// <param name="material">Description of the material.</param>
/// <returns>Refractive index of the material at given wavelegth.</returns>
public static double DispersedRefractiveIndex(
DispersionRecord material,
double wavelength)
{
double lambdaSqr = Math.Pow(wavelength, 2);
double refractiveIndex = 1
+ material.C1 * lambdaSqr / (lambdaSqr - material.C2)
+ material.C3 * lambdaSqr / (lambdaSqr - material.C4);
if ((material.C5 != 0) && (material.C6 != 0))
{
refractiveIndex += material.C5 * lambdaSqr / (lambdaSqr - material.C6);
}
refractiveIndex = Math.Sqrt(refractiveIndex);
return(refractiveIndex);
}
/// <summary>
/// Computes the refractive index of a material for given wavelength
/// with respect to dispersion.
/// </summary>
/// <remarks>
/// Dispersion formula is the Sellmeier equation,
/// http://en.wikipedia.org/wiki/Sellmeier_equation.
/// </remarks>
/// <param name="wavelength">Wavelength of the light (in micrometers).</param>
/// <param name="material">Description of the material.</param>
/// <returns>Refractive index of the material at given wavelegth.</returns>
public static double DispersedRefractiveIndex(
DispersionRecord material,
double wavelength)
{
double lambdaSqr = Math.Pow(wavelength, 2);
double refractiveIndex = 1
+ material.C1 * lambdaSqr / (lambdaSqr - material.C2)
+ material.C3 * lambdaSqr / (lambdaSqr - material.C4);
if ((material.C5 != 0) && (material.C6 != 0))
{
refractiveIndex += material.C5 * lambdaSqr / (lambdaSqr - material.C6);
}
refractiveIndex = Math.Sqrt(refractiveIndex);
return refractiveIndex;
}
