Value of the constant in 'variation of refractive index'

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Discussion Overview

The discussion revolves around the measurement of constants in the formula for the variation of refractive index with wavelength in optics, specifically focusing on the constants A, B, and C. It also touches on the relationship between this formula and the Abbe Number, as well as the concept of Principal Dispersion.

Discussion Character

  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant proposes that the constants A, B, and C can be measured by fitting the refractive index data obtained at various wavelengths to the given formula.
  • Another participant questions whether the dispersion described by the formula is the same as that used in the calculation of the Abbe Number, referencing a specific link for clarification.
  • A participant clarifies that n_F refers to the refractive index for blue light and n_C for red light, suggesting that dispersion is approximately linear for glass over the optical frequency range.
  • There is a suggestion for an alternative formula for n(λ) that incorporates the refractive indices for specific wavelengths, indicating a potential method for calculating the variation of refractive index.

Areas of Agreement / Disagreement

Participants express differing views on the relationship between the variation of refractive index and the Abbe Number, with some uncertainty regarding the definition and implications of Principal Dispersion. The discussion remains unresolved regarding the exact nature of these relationships.

Contextual Notes

There are limitations in the discussion regarding the definitions of terms like Principal Dispersion and the assumptions underlying the linearity of dispersion in glass, which are not fully explored.

Who May Find This Useful

This discussion may be useful for those interested in optics, particularly in the measurement and interpretation of refractive indices and their implications in optical materials.

Donchay
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In optics, given the below formula

nλ= A + B/λ2 + C/λ4 +...

where A, B and C are constants.

From the above relationship we can deduce that as the wavelength λ increases, the variation of refractive index nλ decreases.

How do we measure the constant value of A,B and C at the first place?
 
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You measure the refractive index at several wavelengths and then you fit the formula to the values obtained.
 
Thank You DrDu.
While the above formula is for Optical Dispersion, then is it the same dispersion for the Abbe Number:

Vd=(nD-1)/nF-nC

where nF-nC is the dispersion according to this link http://glassproperties.com/abbe_number/

but somehow on other link I read that nF-nC is called Principal Dispersion. I try to search on more about Principal Dispersion but there is almost none explanation about it.
 
n_F is the index of refraction for blue light while n_C is for red light (see the table with the line frequencies).
One assumes that for glass the dispersion is approximately linear over the optical frequency range.
 
I understand about the line frequencies. Just that is it n(lambda)=n_F - n_C ?
 
I would try something like ## n(\lambda)=n_C+(n_F-n_C)\frac{1/\lambda_C^2-1/\lambda^2}{1/\lambda_C^2-1/\lambda_F^2} ##.
 

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