Refractometry and interferometry in chemical analysis

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P500 V1 Article

Refractometry and interferometry in chemical analysis

Author : Claude VÉRET

Publication date: March 10, 2000 | Lire en français

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AUTHOR

  • Claude VÉRET : Graduate engineer from École supérieure d'optique - Doctorate in engineering from the Paris Faculty of Science

 INTRODUCTION

In a vacuum, electromagnetic radiation, whatever its frequency (or wavelength), propagates at constant speed.

However, when it has to pass through a material medium, it undergoes various types of interactions that lead to modifications in its propagation, such as :

  • attenuation as a function of distance crossed: absorption ;

  • modification of its spatial distribution: diffusion ;

  • reduction or doubling of its propagation speed: refraction, polarization ;

  • variation of propagation speed with frequency: dispersion ;

  • frequency change: fluorescence ;

  • and other side effects.

In radiation frequency ranges where absorption is of little importance, changes in the propagation speed of radiation can provide information about the nature and/or physical conditions (pressure, temperature) of the medium through which it passes, whatever its state (gas, liquid or solid).

Thus, the absolute refractive index n of a medium relative to vacuum is defined as the ratio c/v of the propagation speed c of monochromatic electromagnetic radiation in vacuum to its speed v in this medium.

Photonic refractometry (ultraviolet, visible and infrared radiation ranges) is the set of refractive index measurement techniques that can play a role in chemical analysis.

Refractometric measurements are only applicable to optically transparent media. However, opaque or strongly tinted gels and liquids can be analyzed by certain methods requiring only a very small quantity of product.

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