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Sellmeier equation

From Biocrawler, the free encyclopedia.

In optics, the Sellmeier equation is an empirical relationship between refractive index n and wavelength λ for a particular transparent medium. The usual form of the equation for glasses is:

$n^2(\lambda) = 1 + \frac{B_1 \lambda^2 }{ \lambda^2 - C_1} + \frac{B_2 \lambda^2 }{ \lambda^2 - C_2} + \frac{B_3 \lambda^2 }{ \lambda^2 - C_3}$

where B_1,2,3 and C_1,2,3 are experimentally determined Sellmeier coefficients. These coefficients are usually quoted for λ measured in micrometres.

The equation is used to determine the dispersion of light in a refracting medium. A different form of the equation is sometimes used for certain types of materials, e.g. crystals.

As an example, the coefficients for a common boro silicate crown glass known as BK7 are shown below:

Coefficient	Value
B₁	1.03961212
B₂	2.31792344x10^-1
B₃	1.01046945
C₁	6.00069867x10^-3
C₂	2.00179144x10^-2
C₃	1.03560653x10²

Using these in the above equation produces the following plot for refractive index versus wavelength: .

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Categories: Optics | Equations

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Sellmeier equation

From Biocrawler, the free encyclopedia.

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