Author/Authors :
Bordé، نويسنده , , Christian J.، نويسنده ,
Abstract :
A detailed theory of the line shape in linear absorption spectroscopy of low-pressure gases is developed. The goal is to take into account all effects that come into play in the determination of Boltzmannʹs constant from measurements of the Doppler width. We demonstrate that there is no additional broadening from finite transit time across the laser beams. The molecular recoil and the second-order Doppler effect are included in the line shape thanks to a complete quantum treatment. The Mössbauer–Lamb–Dicke narrowing of Doppler lines by collisions is also included and the special cases of Galatry and Nelkin–Ghatak profiles are presented. To cite this article: C.J. Bordé, C. R. Physique 10 (2009).
Keywords :
Laser spectroscopy , Doppler width , Boltzmann constant , Spectroscopie laser , Constante de Boltzmann , Absorption line shape , Transit-time broadening , Base units of the SI , Forme de raie dיabsorption , Largeur Doppler , ةlargissement dû au transit , Unités de base du SI
